class Frontend(object):
def __init__(self, filename='', arch=None, path_to_yaml=None):
"""
Constructor method.
:param filename: path to the analyzed kernel file for documentation, defaults to ''
:type filename: str, optional
:param arch: micro-arch code for getting the machine model, defaults to None
:type arch: str, optional
:param path_to_yaml: path to the YAML file for getting the machine model, defaults to None
:type path_to_yaml: str, optional
"""
self._filename = filename
if not arch and not path_to_yaml:
raise ValueError('Either arch or path_to_yaml required.')
if arch and path_to_yaml:
raise ValueError('Only one of arch and path_to_yaml is allowed.')
self._arch = arch
if arch:
self._arch = arch.lower()
self._machine_model = MachineModel(arch=arch, lazy=True)
elif path_to_yaml:
self._machine_model = MachineModel(path_to_yaml=path_to_yaml,
lazy=True)
self._arch = self._machine_model.get_arch()
def _is_comment(self, instruction_form):
"""
Checks if instruction form is a comment-only line.
:param instruction_form: instruction form to check
:type instruction_form: `dict`
:returns: `True` if comment line, `False` otherwise
"""
return instruction_form[
'comment'] is not None and instruction_form['instruction'] is None
def throughput_analysis(self, kernel, show_lineno=False, show_cmnts=True):
"""
Build throughput analysis only.
:param kernel: Kernel to build throughput analysis for.
:type kernel: list
:param show_lineno: flag for showing the line number of instructions, defaults to `False`
:type show_lineno: bool, optional
:param show_cmnts: flag for showing comment-only lines in kernel, defaults to `True`
:type show_cmnts: bool, optional
"""
lineno_filler = ' ' if show_lineno else ''
port_len = self._get_max_port_len(kernel)
separator = '-' * sum([x + 3 for x in port_len]) + '-'
separator += '--' + len(str(
kernel[-1]['line_number'])) * '-' if show_lineno else ''
col_sep = '|'
sep_list = self._get_separator_list(col_sep)
headline = 'Port pressure in cycles'
headline_str = '{{:^{}}}'.format(len(separator))
s = '\n\nThroughput Analysis Report\n--------------------------\n'
s += headline_str.format(headline) + '\n'
s += lineno_filler + self._get_port_number_line(port_len) + '\n'
s += separator + '\n'
for instruction_form in kernel:
line = '{:4d} {} {} {}'.format(
instruction_form['line_number'],
self._get_port_pressure(instruction_form['port_pressure'],
port_len,
separator=sep_list),
self._get_flag_symbols(instruction_form['flags'])
if instruction_form['instruction'] is not None else ' ',
instruction_form['line'].strip().replace('\t', ' '),
)
line = line if show_lineno else col_sep + col_sep.join(
line.split(col_sep)[1:])
if show_cmnts is False and self._is_comment(instruction_form):
continue
s += line + '\n'
s += '\n'
tp_sum = ArchSemantics.get_throughput_sum(kernel)
s += lineno_filler + self._get_port_pressure(
tp_sum, port_len, separator=' ') + '\n'
return s
def latency_analysis(self, cp_kernel, separator='|'):
"""
Build a list-based CP analysis report.
:param cp_kernel: loop kernel containing the CP information for each instruction form
:type cp_kernel: list
:separator: separator symbol for the columns, defaults to '|'
:type separator: str, optional
"""
s = '\n\nLatency Analysis Report\n-----------------------\n'
for instruction_form in cp_kernel:
s += ('{:4d} {} {:4.1f} {}{}{} {}'.format(
instruction_form['line_number'],
separator,
instruction_form['latency_cp'],
separator,
'X'
if INSTR_FLAGS.LT_UNKWN in instruction_form['flags'] else ' ',
separator,
instruction_form['line'],
)) + '\n'
s += ('\n{:4} {} {:4.1f}'.format(
' ' * max([
len(str(instr_form['line_number'])) for instr_form in cp_kernel
]),
' ' * len(separator),
sum([instr_form['latency_cp'] for instr_form in cp_kernel]),
)) + '\n'
return s
def loopcarried_dependencies(self, dep_dict, separator='|'):
"""
Print a list-based LCD analysis to the terminal.
:param dep_dict: dictionary with first instruction in LCD as key and the deps as value
:type dep_dict: dict
:separator: separator symbol for the columns, defaults to '|'
:type separator: str, optional
"""
s = ('\n\nLoop-Carried Dependencies Analysis Report\n' +
'-----------------------------------------\n')
# TODO find a way to overcome padding for different tab-lengths
for dep in dep_dict:
s += '{:4d} {} {:4.1f} {} {:36}{} {}\n'.format(
dep,
separator,
sum([
instr_form['latency_lcd']
for instr_form in dep_dict[dep]['dependencies']
]),
separator,
dep_dict[dep]['root']['line'].strip(),
separator,
[
node['line_number']
for node in dep_dict[dep]['dependencies']
],
)
return s
def full_analysis(self,
kernel,
kernel_dg: KernelDG,
ignore_unknown=False,
arch_warning=False,
length_warning=False,
verbose=False):
"""
Build the full analysis report including header, the symbol map, the combined TP/CP/LCD
view and the list based LCD view.
:param kernel: kernel to report on
:type kernel: list
:param kernel_dg: directed graph containing CP and LCD
:type kernel_dg: :class:`~osaca.semantics.KernelDG`
:param ignore_unknown: flag for ignore warning if performance data is missing, defaults to
`False`
:type ignore_unknown: boolean, optional
:param print_arch_warning: flag for additional user warning to specify micro-arch
:type print_arch_warning: boolean, optional
:param print_length_warning: flag for additional user warning to specify kernel length with --lines
:type print_length_warning: boolean, optional
:param verbose: flag for verbosity level, defaults to False
:type verbose: boolean, optional
"""
return (self._header_report() +
self._user_warnings(arch_warning, length_warning) +
self._symbol_map() + self.combined_view(
kernel,
kernel_dg.get_critical_path(),
kernel_dg.get_loopcarried_dependencies(),
ignore_unknown,
) + self.loopcarried_dependencies(
kernel_dg.get_loopcarried_dependencies()))
def combined_view(self,
kernel,
cp_kernel: KernelDG,
dep_dict,
ignore_unknown=False,
show_cmnts=True):
"""
Build combined view of kernel including port pressure (TP), a CP column and a
LCD column.
:param kernel: kernel to report on
:type kernel: list
:param kernel_dg: directed graph containing CP and LCD
:type kernel_dg: :class:`~osaca.semantics.KernelDG`
:param dep_dict: dictionary with first instruction in LCD as key and the deps as value
:type dep_dict: dict
:param ignore_unknown: flag for showing result despite of missing instructions, defaults to
`False`
:type ignore_unknown: bool, optional
:param show_cmnts: flag for showing comment-only lines in kernel, defaults to `True`
:type show_cmnts: bool, optional
"""
s = '\n\nCombined Analysis Report\n------------------------\n'
lineno_filler = ' '
port_len = self._get_max_port_len(kernel)
# Separator for ports
separator = '-' * sum([x + 3 for x in port_len]) + '-'
# ... for line numbers
separator += '--' + len(str(kernel[-1]['line_number'])) * '-'
col_sep = '|'
# for LCD/CP column
separator += '-' * (2 * 6 + len(col_sep)) + '-' * len(col_sep)
sep_list = self._get_separator_list(col_sep)
headline = 'Port pressure in cycles'
headline_str = '{{:^{}}}'.format(len(separator))
# Prepare CP/LCD variable
cp_lines = [x['line_number'] for x in cp_kernel]
sums = {}
for dep in dep_dict:
sums[dep] = sum([
instr_form['latency_lcd']
for instr_form in dep_dict[dep]['dependencies']
])
lcd_sum = max(sums.values()) if len(sums) > 0 else 0.0
lcd_lines = []
if len(dep_dict) > 0:
longest_lcd = [
line_no for line_no in sums if sums[line_no] == lcd_sum
][0]
lcd_lines = [
d['line_number'] for d in dep_dict[longest_lcd]['dependencies']
]
s += headline_str.format(headline) + '\n'
s += (
(lineno_filler +
self._get_port_number_line(port_len, separator=col_sep) +
'{}{:^6}{}{:^6}{}'.format(col_sep, 'CP', col_sep, 'LCD', col_sep))
+ '\n' + separator + '\n')
for instruction_form in kernel:
if show_cmnts is False and self._is_comment(instruction_form):
continue
line_number = instruction_form['line_number']
used_ports = [
list(uops[1]) for uops in instruction_form['port_uops']
]
used_ports = list(
set([p for uops_ports in used_ports for p in uops_ports]))
s += '{:4d} {}{} {} {}\n'.format(
line_number,
self._get_port_pressure(instruction_form['port_pressure'],
port_len, used_ports, sep_list),
self._get_lcd_cp_ports(
instruction_form['line_number'],
cp_kernel if line_number in cp_lines else None,
dep_dict[longest_lcd]
if line_number in lcd_lines else None,
),
self._get_flag_symbols(instruction_form['flags'])
if instruction_form['instruction'] is not None else ' ',
instruction_form['line'].strip().replace('\t', ' '),
)
s += '\n'
# check for unknown instructions and throw warning if called without --ignore-unknown
if not ignore_unknown and INSTR_FLAGS.TP_UNKWN in [
flag for instr in kernel for flag in instr['flags']
]:
num_missing = len([
instr['flags'] for instr in kernel
if INSTR_FLAGS.TP_UNKWN in instr['flags']
])
s += self._missing_instruction_error(num_missing)
else:
# lcd_sum already calculated before
tp_sum = ArchSemantics.get_throughput_sum(kernel)
cp_sum = sum([x['latency_cp'] for x in cp_kernel])
s += (lineno_filler +
self._get_port_pressure(tp_sum, port_len, separator=' ') +
' {:^6} {:^6}\n'.format(cp_sum, lcd_sum))
return s
####################
# HELPER FUNCTIONS
####################
def _missing_instruction_error(self, amount):
"""Returns the warning for if any instruction form in the analysis is missing."""
s = (
'------------------ WARNING: The performance data for {} instructions is missing.'
'------------------\n'
' No final analysis is given. If you want to ignore this\n'
' warning and run the analysis anyway, start osaca with\n'
' --ignore-unknown flag.\n'
'--------------------------------------------------------------------------------'
'----------------{}\n').format(amount, '-' * len(str(amount)))
return s
def _user_warnings(self, arch_warning, length_warning):
"""Returns warning texts for giving the user more insight in what he is doing."""
arch_text = (
'WARNING: No micro-architecture was specified and a default uarch was used.\n'
' Specify the uarch with --arch. See --help for more information.\n'
)
length_text = (
'WARNING: You are analyzing a large amount of instruction forms. Analysis '
'across loops/block boundaries often do not make much sense.\n'
' Specify the kernel length with --length. See --help for more '
'information.\n'
' If this is intentional, you can safely ignore this message.\n'
)
warnings = ''
warnings += arch_text if arch_warning else ''
warnings += length_text if length_warning else ''
warnings += '\n'
return warnings
def _get_separator_list(self, separator, separator_2=' '):
"""Creates column view for seperators in the TP/combined view."""
separator_list = []
for i in range(len(self._machine_model.get_ports()) - 1):
match_1 = re.search(r'\d+', self._machine_model.get_ports()[i])
match_2 = re.search(r'\d+', self._machine_model.get_ports()[i + 1])
if match_1 is not None and match_2 is not None and match_1.group(
) == match_2.group():
separator_list.append(separator_2)
else:
separator_list.append(separator)
separator_list.append(separator)
return separator_list
def _get_flag_symbols(self, flag_obj):
"""Returns flags for a flag object of an instruction"""
string_result = ''
string_result += '*' if INSTR_FLAGS.NOT_BOUND in flag_obj else ''
string_result += 'X' if INSTR_FLAGS.TP_UNKWN in flag_obj else ''
string_result += 'P' if INSTR_FLAGS.HIDDEN_LD in flag_obj else ''
# TODO add other flags
string_result += ' ' if len(string_result) == 0 else ''
return string_result
def _get_port_pressure(self,
ports,
port_len,
used_ports=[],
separator='|'):
"""Returns line of port pressure for an instruction."""
if not isinstance(separator, list):
separator = [separator for x in ports]
string_result = '{} '.format(separator[-1])
for i in range(len(ports)):
if float(ports[i]) == 0.0 and self._machine_model.get_ports(
)[i] not in used_ports:
string_result += port_len[i] * ' ' + ' {} '.format(
separator[i])
continue
left_len = len(str(float(ports[i])).split('.')[0])
substr = '{:' + str(left_len) + '.' + str(
max(port_len[i] - left_len - 1, 0)) + 'f}'
substr = substr.format(ports[i])
string_result += (substr +
' {} '.format(separator[i]) if '.' in substr else
'{:.1f}{} '.format(ports[i], separator[i]))
return string_result[:-1]
def _get_node_by_lineno(self, lineno, kernel):
"""Returns instruction form from kernel by its line number."""
nodes = [instr for instr in kernel if instr['line_number'] == lineno]
return nodes[0] if len(nodes) > 0 else None
def _get_lcd_cp_ports(self, line_number, cp_dg, dependency, separator='|'):
"""Returns the CP and LCD line for one instruction."""
lat_cp = lat_lcd = ''
if cp_dg:
lat_cp = float(
self._get_node_by_lineno(line_number, cp_dg)['latency_cp'])
if dependency:
lat_lcd = float(
self._get_node_by_lineno(
line_number, dependency['dependencies'])['latency_lcd'])
return '{} {:>4} {} {:>4} {}'.format(separator, lat_cp, separator,
lat_lcd, separator)
def _get_max_port_len(self, kernel):
"""Returns the maximal length needed to print all throughputs of the kernel."""
port_len = [4 for x in self._machine_model.get_ports()]
for instruction_form in kernel:
for i, port in enumerate(instruction_form['port_pressure']):
if len('{:.2f}'.format(port)) > port_len[i]:
port_len[i] = len('{:.2f}'.format(port))
return port_len
def _get_port_number_line(self, port_len, separator='|'):
"""Returns column view of port identificators of machine_model."""
string_result = separator
separator_list = self._get_separator_list(separator, '-')
for i, length in enumerate(port_len):
substr = '{:^' + str(length + 2) + 's}'
string_result += substr.format(
self._machine_model.get_ports()[i]) + separator_list[i]
return string_result
def _header_report(self):
"""Prints header information"""
version = 'v0.3'
adjust = 20
header = ''
header += 'Open Source Architecture Code Analyzer (OSACA) - {}\n'.format(
version)
header += 'Analyzed file:'.ljust(adjust) + '{}\n'.format(
self._filename)
header += 'Architecture:'.ljust(adjust) + '{}\n'.format(self._arch)
header += 'Timestamp:'.ljust(adjust) + '{}\n'.format(
dt.utcnow().strftime('%Y-%m-%d %H:%M:%S'))
return header + '\n'
def _symbol_map(self):
"""Prints instruction flag map."""
symbol_dict = {
INSTR_FLAGS.NOT_BOUND:
'Instruction micro-ops not bound to a port',
INSTR_FLAGS.TP_UNKWN:
'No throughput/latency information for this instruction in ' +
'data file',
INSTR_FLAGS.HIDDEN_LD:
'Throughput of LOAD operation can be hidden behind a past ' +
'or future STORE instruction',
}
symbol_map = ''
for flag in sorted(symbol_dict.keys()):
symbol_map += ' {} - {}\n'.format(self._get_flag_symbols([flag]),
symbol_dict[flag])
return symbol_map
def _port_binding_summary(self):
raise NotImplementedError
class Frontend(object):
def __init__(self, filename="", arch=None, path_to_yaml=None):
"""
Constructor method.
:param filename: path to the analyzed kernel file for documentation, defaults to ''
:type filename: str, optional
:param arch: micro-arch code for getting the machine model, defaults to None
:type arch: str, optional
:param path_to_yaml: path to the YAML file for getting the machine model, defaults to None
:type path_to_yaml: str, optional
"""
self._filename = filename
if not arch and not path_to_yaml:
raise ValueError("Either arch or path_to_yaml required.")
if arch and path_to_yaml:
raise ValueError("Only one of arch and path_to_yaml is allowed.")
self._arch = arch
if arch:
self._arch = arch.lower()
self._machine_model = MachineModel(arch=arch, lazy=True)
elif path_to_yaml:
self._machine_model = MachineModel(path_to_yaml=path_to_yaml,
lazy=True)
self._arch = self._machine_model.get_arch()
def _is_comment(self, instruction_form):
"""
Checks if instruction form is a comment-only line.
:param instruction_form: instruction form to check
:type instruction_form: `dict`
:returns: `True` if comment line, `False` otherwise
"""
return instruction_form[
"comment"] is not None and instruction_form["instruction"] is None
def throughput_analysis(self, kernel, show_lineno=False, show_cmnts=True):
"""
Build throughput analysis only.
:param kernel: Kernel to build throughput analysis for.
:type kernel: list
:param show_lineno: flag for showing the line number of instructions, defaults to `False`
:type show_lineno: bool, optional
:param show_cmnts: flag for showing comment-only lines in kernel, defaults to `True`
:type show_cmnts: bool, optional
"""
lineno_filler = " " if show_lineno else ""
port_len = self._get_max_port_len(kernel)
separator = "-" * sum([x + 3 for x in port_len]) + "-"
separator += "--" + len(str(
kernel[-1]["line_number"])) * "-" if show_lineno else ""
col_sep = "|"
sep_list = self._get_separator_list(col_sep)
headline = "Port pressure in cycles"
headline_str = "{{:^{}}}".format(len(separator))
s = "\n\nThroughput Analysis Report\n--------------------------\n"
s += headline_str.format(headline) + "\n"
s += lineno_filler + self._get_port_number_line(port_len) + "\n"
s += separator + "\n"
for instruction_form in kernel:
line = "{:4d} {} {} {}".format(
instruction_form["line_number"],
self._get_port_pressure(instruction_form["port_pressure"],
port_len,
separator=sep_list),
self._get_flag_symbols(instruction_form["flags"])
if instruction_form["instruction"] is not None else " ",
instruction_form["line"].strip().replace("\t", " "),
)
line = line if show_lineno else col_sep + col_sep.join(
line.split(col_sep)[1:])
if show_cmnts is False and self._is_comment(instruction_form):
continue
s += line + "\n"
s += "\n"
tp_sum = ArchSemantics.get_throughput_sum(kernel)
s += lineno_filler + self._get_port_pressure(
tp_sum, port_len, separator=" ") + "\n"
return s
def latency_analysis(self, cp_kernel, separator="|"):
"""
Build a list-based CP analysis report.
:param cp_kernel: loop kernel containing the CP information for each instruction form
:type cp_kernel: list
:separator: separator symbol for the columns, defaults to '|'
:type separator: str, optional
"""
s = "\n\nLatency Analysis Report\n-----------------------\n"
for instruction_form in cp_kernel:
s += ("{:4d} {} {:4.1f} {}{}{} {}".format(
instruction_form["line_number"],
separator,
instruction_form["latency_cp"],
separator,
"X"
if INSTR_FLAGS.LT_UNKWN in instruction_form["flags"] else " ",
separator,
instruction_form["line"],
)) + "\n"
s += ("\n{:4} {} {:4.1f}".format(
" " * max([
len(str(instr_form["line_number"])) for instr_form in cp_kernel
]),
" " * len(separator),
sum([instr_form["latency_cp"] for instr_form in cp_kernel]),
)) + "\n"
return s
def loopcarried_dependencies(self, dep_dict, separator="|"):
"""
Print a list-based LCD analysis to the terminal.
:param dep_dict: dictionary with first instruction in LCD as key and the deps as value
:type dep_dict: dict
:separator: separator symbol for the columns, defaults to '|'
:type separator: str, optional
"""
s = ("\n\nLoop-Carried Dependencies Analysis Report\n" +
"-----------------------------------------\n")
# TODO find a way to overcome padding for different tab-lengths
for dep in dep_dict:
s += "{:4d} {} {:4.1f} {} {:36}{} {}\n".format(
dep,
separator,
dep_dict[dep]["latency"],
separator,
dep_dict[dep]["root"]["line"].strip(),
separator,
[
node["line_number"]
for node, lat in dep_dict[dep]["dependencies"]
],
)
return s
def full_analysis(
self,
kernel,
kernel_dg: KernelDG,
ignore_unknown=False,
arch_warning=False,
length_warning=False,
lcd_warning=False,
verbose=False,
):
"""
Build the full analysis report including header, the symbol map, the combined TP/CP/LCD
view and the list based LCD view.
:param kernel: kernel to report on
:type kernel: list
:param kernel_dg: directed graph containing CP and LCD
:type kernel_dg: :class:`~osaca.semantics.KernelDG`
:param ignore_unknown: flag for ignore warning if performance data is missing, defaults to
`False`
:type ignore_unknown: boolean, optional
:param arch_warning: flag for additional user warning to specify micro-arch
:type arch_warning: boolean, optional
:param length_warning: flag for additional user warning to specify kernel length with
--lines
:type length_warning: boolean, optional
:param lcd_warning: flag for additional user warning due to LCD analysis timed out
:type lcd_warning: boolean, optional
:param verbose: flag for verbosity level, defaults to False
:type verbose: boolean, optional
"""
return (self._header_report() +
self._user_warnings_header(arch_warning, length_warning) +
self._symbol_map() + self.combined_view(
kernel,
kernel_dg.get_critical_path(),
kernel_dg.get_loopcarried_dependencies(),
ignore_unknown,
) + self._user_warnings_footer(lcd_warning) +
self.loopcarried_dependencies(
kernel_dg.get_loopcarried_dependencies()))
def combined_view(self,
kernel,
cp_kernel: KernelDG,
dep_dict,
ignore_unknown=False,
show_cmnts=True):
"""
Build combined view of kernel including port pressure (TP), a CP column and a
LCD column.
:param kernel: kernel to report on
:type kernel: list
:param kernel_dg: directed graph containing CP and LCD
:type kernel_dg: :class:`~osaca.semantics.KernelDG`
:param dep_dict: dictionary with first instruction in LCD as key and the deps as value
:type dep_dict: dict
:param ignore_unknown: flag for showing result despite of missing instructions, defaults to
`False`
:type ignore_unknown: bool, optional
:param show_cmnts: flag for showing comment-only lines in kernel, defaults to `True`
:type show_cmnts: bool, optional
"""
s = "\n\nCombined Analysis Report\n------------------------\n"
lineno_filler = " "
port_len = self._get_max_port_len(kernel)
# Separator for ports
separator = "-" * sum([x + 3 for x in port_len]) + "-"
# ... for line numbers
separator += "--" + len(str(kernel[-1]["line_number"])) * "-"
col_sep = "|"
# for LCD/CP column
separator += "-" * (2 * 6 + len(col_sep)) + "-" * len(col_sep)
sep_list = self._get_separator_list(col_sep)
headline = "Port pressure in cycles"
headline_str = "{{:^{}}}".format(len(separator))
# Prepare CP/LCD variable
cp_lines = [x["line_number"] for x in cp_kernel]
lcd_sum = 0.0
lcd_lines = {}
if dep_dict:
longest_lcd = max(dep_dict, key=lambda ln: dep_dict[ln]['latency'])
lcd_sum = dep_dict[longest_lcd]['latency']
lcd_lines = {
instr["line_number"]: lat
for instr, lat in dep_dict[longest_lcd]["dependencies"]
}
s += headline_str.format(headline) + "\n"
s += (
(lineno_filler +
self._get_port_number_line(port_len, separator=col_sep) +
"{}{:^6}{}{:^6}{}".format(col_sep, "CP", col_sep, "LCD", col_sep))
+ "\n" + separator + "\n")
for instruction_form in kernel:
if show_cmnts is False and self._is_comment(instruction_form):
continue
line_number = instruction_form["line_number"]
used_ports = [
list(uops[1]) for uops in instruction_form["port_uops"]
]
used_ports = list(
set([p for uops_ports in used_ports for p in uops_ports]))
s += "{:4d} {}{} {} {}\n".format(
line_number,
self._get_port_pressure(instruction_form["port_pressure"],
port_len, used_ports, sep_list),
self._get_lcd_cp_ports(
instruction_form["line_number"],
cp_kernel if line_number in cp_lines else None,
lcd_lines.get(line_number),
),
self._get_flag_symbols(instruction_form["flags"])
if instruction_form["instruction"] is not None else " ",
instruction_form["line"].strip().replace("\t", " "),
)
s += "\n"
# check for unknown instructions and throw warning if called without --ignore-unknown
if not ignore_unknown and INSTR_FLAGS.TP_UNKWN in [
flag for instr in kernel for flag in instr["flags"]
]:
num_missing = len([
instr["flags"] for instr in kernel
if INSTR_FLAGS.TP_UNKWN in instr["flags"]
])
s += self._missing_instruction_error(num_missing)
else:
# lcd_sum already calculated before
tp_sum = ArchSemantics.get_throughput_sum(kernel)
# if ALL instructions are unknown, take a line of 0s
if not tp_sum:
tp_sum = kernel[0]["port_pressure"]
cp_sum = sum([x["latency_cp"] for x in cp_kernel])
s += (lineno_filler +
self._get_port_pressure(tp_sum, port_len, separator=" ") +
" {:^6} {:^6}\n".format(cp_sum, lcd_sum))
return s
####################
# HELPER FUNCTIONS
####################
def _missing_instruction_error(self, amount):
"""Returns the warning for if any instruction form in the analysis is missing."""
s = (
"------------------ WARNING: The performance data for {} instructions is missing."
"------------------\n"
" No final analysis is given. If you want to ignore this\n"
" warning and run the analysis anyway, start osaca with\n"
" --ignore-unknown flag.\n"
"--------------------------------------------------------------------------------"
"----------------{}\n").format(amount, "-" * len(str(amount)))
return s
def _user_warnings_header(self, arch_warning, length_warning):
"""Returns warning texts for giving the user more insight in what he is doing."""
dashed_line = (
"-------------------------------------------------------------------------"
"------------------------\n")
arch_text = (
"-------------------------- WARNING: No micro-architecture was specified "
"-------------------------\n"
" A default uarch for this particular ISA was used. Specify "
"the uarch with --arch.\n See --help for more information.\n"
+ dashed_line)
length_text = (
"----------------- WARNING: You are analyzing a large amount of instruction forms "
"----------------\n Analysis across loops/block boundaries often do not make"
" much sense.\n Specify the kernel length with --length. See --help for more "
"information.\n If this is intentional, you can safely ignore this message.\n"
+ dashed_line)
warnings = ""
warnings += arch_text if arch_warning else ""
warnings += length_text if length_warning else ""
warnings += "\n"
return warnings
def _user_warnings_footer(self, lcd_warning):
"""Returns warning texts for giving the user more insight in what he is doing."""
dashed_line = (
"-------------------------------------------------------------------------"
"------------------------\n")
lcd_text = (
"-------------------------------- WARNING: LCD analysis timed out "
"-------------------------------\n While searching for all dependency chains"
" the analysis timed out and might be\n incomplete. Decrease the number of "
"instructions or set the timeout threshold\n with --lcd-timeout. See --help"
" for more information.\n" + dashed_line)
warnings = "\n"
warnings += lcd_text if lcd_warning else ""
warnings += "\n"
return warnings
def _get_separator_list(self, separator, separator_2=" "):
"""Creates column view for seperators in the TP/combined view."""
separator_list = []
for i in range(len(self._machine_model.get_ports()) - 1):
match_1 = re.search(r"\d+", self._machine_model.get_ports()[i])
match_2 = re.search(r"\d+", self._machine_model.get_ports()[i + 1])
if match_1 is not None and match_2 is not None and match_1.group(
) == match_2.group():
separator_list.append(separator_2)
else:
separator_list.append(separator)
separator_list.append(separator)
return separator_list
def _get_flag_symbols(self, flag_obj):
"""Returns flags for a flag object of an instruction"""
string_result = ""
string_result += "*" if INSTR_FLAGS.NOT_BOUND in flag_obj else ""
string_result += "X" if INSTR_FLAGS.TP_UNKWN in flag_obj else ""
string_result += "P" if INSTR_FLAGS.HIDDEN_LD in flag_obj else ""
# TODO add other flags
string_result += " " if len(string_result) == 0 else ""
return string_result
def _get_port_pressure(self,
ports,
port_len,
used_ports=[],
separator="|"):
"""Returns line of port pressure for an instruction."""
if not isinstance(separator, list):
separator = [separator for x in ports]
string_result = "{} ".format(separator[-1])
for i in range(len(ports)):
if float(ports[i]) == 0.0 and self._machine_model.get_ports(
)[i] not in used_ports:
string_result += port_len[i] * " " + " {} ".format(
separator[i])
continue
left_len = len(str(float(ports[i])).split(".")[0])
substr = "{:" + str(left_len) + "." + str(
max(port_len[i] - left_len - 1, 0)) + "f}"
substr = substr.format(ports[i])
string_result += (substr +
" {} ".format(separator[i]) if "." in substr else
"{:.1f}{} ".format(ports[i], separator[i]))
return string_result[:-1]
def _get_node_by_lineno(self, lineno, kernel):
"""Returns instruction form from kernel by its line number."""
nodes = [instr for instr in kernel if instr["line_number"] == lineno]
return nodes[0] if len(nodes) > 0 else None
def _get_lcd_cp_ports(self, line_number, cp_dg, dep_lat, separator="|"):
"""Returns the CP and LCD line for one instruction."""
lat_cp = lat_lcd = ""
if cp_dg:
lat_cp = float(
self._get_node_by_lineno(line_number, cp_dg)["latency_cp"])
if dep_lat is not None:
lat_lcd = float(dep_lat)
return "{} {:>4} {} {:>4} {}".format(separator, lat_cp, separator,
lat_lcd, separator)
def _get_max_port_len(self, kernel):
"""Returns the maximal length needed to print all throughputs of the kernel."""
port_len = [4 for x in self._machine_model.get_ports()]
for instruction_form in kernel:
for i, port in enumerate(instruction_form["port_pressure"]):
if len("{:.2f}".format(port)) > port_len[i]:
port_len[i] = len("{:.2f}".format(port))
return port_len
def _get_port_number_line(self, port_len, separator="|"):
"""Returns column view of port identificators of machine_model."""
string_result = separator
separator_list = self._get_separator_list(separator, "-")
for i, length in enumerate(port_len):
substr = "{:^" + str(length + 2) + "s}"
string_result += substr.format(
self._machine_model.get_ports()[i]) + separator_list[i]
return string_result
def _header_report(self):
"""Prints header information"""
version = _get_version("__init__.py")
adjust = 20
header = ""
header += "Open Source Architecture Code Analyzer (OSACA) - {}\n".format(
version)
header += "Analyzed file:".ljust(adjust) + "{}\n".format(
self._filename)
header += "Architecture:".ljust(adjust) + "{}\n".format(
self._arch.upper())
header += "Timestamp:".ljust(adjust) + "{}\n".format(
dt.utcnow().strftime("%Y-%m-%d %H:%M:%S"))
return header + "\n"
def _symbol_map(self):
"""Prints instruction flag map."""
symbol_dict = {
INSTR_FLAGS.NOT_BOUND:
"Instruction micro-ops not bound to a port",
INSTR_FLAGS.TP_UNKWN:
"No throughput/latency information for this instruction in " +
"data file",
INSTR_FLAGS.HIDDEN_LD:
"Throughput of LOAD operation can be hidden behind a past " +
"or future STORE instruction",
}
symbol_map = ""
for flag in sorted(symbol_dict.keys()):
symbol_map += " {} - {}\n".format(self._get_flag_symbols([flag]),
symbol_dict[flag])
return symbol_map
def _port_binding_summary(self):
raise NotImplementedError
