Exemplo n.º 1
0
def main(output, *filenames):
    histograms = list(histogram_tools.from_files(filenames))

    print(banner, file=output)
    write_histogram_table(output, histograms)
    write_histogram_static_asserts(output, histograms)
    write_debug_histogram_ranges(output, histograms)
Exemplo n.º 2
0
def main(argv):
    filenames = argv

    all_histograms = OrderedDict()

    for histogram in histogram_tools.from_files(filenames):
        name = histogram.name()
        parameters = OrderedDict()
        table = {
            'boolean': '2',
            'flag': '3',
            'enumerated': '1',
            'linear': '1',
            'exponential': '0',
            'count': '4',
            }
        # Use __setitem__ because Python lambdas are so limited.
        histogram_tools.table_dispatch(histogram.kind(), table,
                                       lambda k: parameters.__setitem__('kind', k))
        if histogram.low() == 0:
            parameters['min'] = 1
        else:
            parameters['min'] = histogram.low()

        try:
            buckets = histogram.ranges()
            parameters['buckets'] = buckets
            parameters['max'] = buckets[-1]
            parameters['bucket_count'] = len(buckets)
        except histogram_tools.DefinitionException:
            continue

        all_histograms.update({ name: parameters })

    print json.dumps({ 'histograms': all_histograms})
def main(argv):
    filenames = argv

    all_histograms = OrderedDict()

    for histogram in histogram_tools.from_files(filenames):
        name = histogram.name()
        parameters = OrderedDict()
        table = {
            'boolean': '2',
            'flag': '3',
            'enumerated': '1',
            'linear': '1',
            'exponential': '0',
            'count': '4',
            }
        # Use __setitem__ because Python lambdas are so limited.
        histogram_tools.table_dispatch(histogram.kind(), table,
                                       lambda k: parameters.__setitem__('kind', k))
        if histogram.low() == 0:
            parameters['min'] = 1
        else:
            parameters['min'] = histogram.low()

        try:
            buckets = histogram.ranges()
            parameters['buckets'] = buckets
            parameters['max'] = buckets[-1]
            parameters['bucket_count'] = len(buckets)
        except histogram_tools.DefinitionException:
            continue

        all_histograms.update({ name: parameters });

    print json.dumps({ 'histograms': all_histograms})
Exemplo n.º 4
0
def main(output, *filenames):
    histograms = list(histogram_tools.from_files(filenames))

    print(banner, file=output)
    write_histogram_table(output, histograms)
    write_histogram_static_asserts(output, histograms)
    write_debug_histogram_ranges(output, histograms)
def main(argv):
    filenames = argv

    all_histograms = OrderedDict()

    for histogram in histogram_tools.from_files(filenames):
        name = histogram.name()
        parameters = OrderedDict()
        table = {"boolean": "2", "flag": "3", "enumerated": "1", "linear": "1", "exponential": "0", "count": "4"}
        # Use __setitem__ because Python lambdas are so limited.
        histogram_tools.table_dispatch(histogram.kind(), table, lambda k: parameters.__setitem__("kind", k))
        if histogram.low() == 0:
            parameters["min"] = 1
        else:
            parameters["min"] = histogram.low()

        try:
            buckets = histogram.ranges()
            parameters["buckets"] = buckets
            parameters["max"] = buckets[-1]
            parameters["bucket_count"] = len(buckets)
        except histogram_tools.DefinitionException:
            continue

        all_histograms.update({name: parameters})

        if startup_histogram_re.search(name) is not None:
            all_histograms.update({"STARTUP_" + name: parameters})

    print json.dumps({"histograms": all_histograms})
Exemplo n.º 6
0
def main(argv):
    filenames = argv

    histograms = list(histogram_tools.from_files(filenames))

    print banner
    write_histogram_table(histograms)
    write_histogram_static_asserts(histograms)
    write_debug_histogram_ranges(histograms)
Exemplo n.º 7
0
def main(output, *filenames):
    try:
        histograms = list(histogram_tools.from_files(filenames))
    except ParserError as ex:
        print("\nError processing histograms:\n" + str(ex) + "\n")
        sys.exit(1)

    print(banner, file=output)
    write_histogram_table(output, histograms)
    write_histogram_ranges(output, histograms)
    write_histogram_static_asserts(output, histograms)
Exemplo n.º 8
0
def main(output, *filenames):
    try:
        histograms = list(histogram_tools.from_files(filenames))
    except ParserError as ex:
        print("\nError processing histograms:\n" + str(ex) + "\n")
        sys.exit(1)

    print(banner, file=output)
    write_histogram_table(output, histograms)
    write_histogram_static_asserts(output, histograms)
    write_debug_histogram_ranges(output, histograms)
Exemplo n.º 9
0
def main(output, *filenames):
    print(banner, file=output)
    print("#ifndef mozilla_TelemetryHistogramEnums_h", file=output)
    print("#define mozilla_TelemetryHistogramEnums_h", file=output)
    print("namespace mozilla {", file=output)
    print("namespace Telemetry {", file=output)
    print("enum ID : uint32_t {", file=output)

    groups = itertools.groupby(histogram_tools.from_files(filenames),
                               lambda h: h.name().startswith("USE_COUNTER2_"))
    seen_use_counters = False

    # Note that histogram_tools.py guarantees that all of the USE_COUNTER2_*
    # histograms are defined in a contiguous block.  We therefore assume
    # that there's at most one group for which use_counter_group is true.
    for (use_counter_group, histograms) in groups:
        if use_counter_group:
            seen_use_counters = True

        # The HistogramDUMMY* enum variables are used to make the computation
        # of Histogram{First,Last}UseCounter easier.  Otherwise, we'd have to
        # special case the first and last histogram in the group.
        if use_counter_group:
            print("  HistogramFirstUseCounter,", file=output)
            print("  HistogramDUMMY1 = HistogramFirstUseCounter - 1,",
                  file=output)

        for histogram in histograms:
            cpp_guard = histogram.cpp_guard()
            if cpp_guard:
                print("#if defined(%s)" % cpp_guard, file=output)
            print("  %s," % histogram.name(), file=output)
            if cpp_guard:
                print("#endif", file=output)

        if use_counter_group:
            print("  HistogramDUMMY2,", file=output)
            print("  HistogramLastUseCounter = HistogramDUMMY2 - 1,",
                  file=output)

    print("  HistogramCount,", file=output)
    if seen_use_counters:
        print(
            "  HistogramUseCounterCount = HistogramLastUseCounter - HistogramFirstUseCounter + 1",
            file=output)
    else:
        print("  HistogramFirstUseCounter = 0,", file=output)
        print("  HistogramLastUseCounter = 0,", file=output)
        print("  HistogramUseCounterCount = 0", file=output)
    print("};", file=output)
    print("} // namespace mozilla", file=output)
    print("} // namespace Telemetry", file=output)
    print("#endif // mozilla_TelemetryHistogramEnums_h", file=output)
Exemplo n.º 10
0
def main(output, *filenames):
    print(banner, file=output)
    print("#ifndef mozilla_TelemetryHistogramEnums_h", file=output);
    print("#define mozilla_TelemetryHistogramEnums_h", file=output);
    print("namespace mozilla {", file=output)
    print("namespace Telemetry {", file=output)
    print("enum ID : uint32_t {", file=output)

    groups = itertools.groupby(histogram_tools.from_files(filenames),
                               lambda h: h.name().startswith("USE_COUNTER2_"))
    seen_use_counters = False

    # Note that histogram_tools.py guarantees that all of the USE_COUNTER2_*
    # histograms are defined in a contiguous block.  We therefore assume
    # that there's at most one group for which use_counter_group is true.
    for (use_counter_group, histograms) in groups:
        if use_counter_group:
            seen_use_counters = True

        # The HistogramDUMMY* enum variables are used to make the computation
        # of Histogram{First,Last}UseCounter easier.  Otherwise, we'd have to
        # special case the first and last histogram in the group.
        if use_counter_group:
            print("  HistogramFirstUseCounter,", file=output)
            print("  HistogramDUMMY1 = HistogramFirstUseCounter - 1,", file=output)

        for histogram in histograms:
            cpp_guard = histogram.cpp_guard()
            if cpp_guard:
                print("#if defined(%s)" % cpp_guard, file=output)
            print("  %s," % histogram.name(), file=output)
            if cpp_guard:
                print("#endif", file=output)

        if use_counter_group:
            print("  HistogramDUMMY2,", file=output)
            print("  HistogramLastUseCounter = HistogramDUMMY2 - 1,", file=output)

    print("  HistogramCount,", file=output)
    if seen_use_counters:
        print("  HistogramUseCounterCount = HistogramLastUseCounter - HistogramFirstUseCounter + 1", file=output)
    else:
        print("  HistogramFirstUseCounter = 0,", file=output)
        print("  HistogramLastUseCounter = 0,", file=output)
        print("  HistogramUseCounterCount = 0", file=output)
    print("};", file=output)
    print("} // namespace mozilla", file=output)
    print("} // namespace Telemetry", file=output)
    print("#endif // mozilla_TelemetryHistogramEnums_h", file=output);
Exemplo n.º 11
0
def main(argv):
    filenames = argv

    print banner
    print "enum ID : uint32_t {"

    groups = itertools.groupby(histogram_tools.from_files(filenames),
                               lambda h: h.name().startswith("USE_COUNTER_"))
    seen_use_counters = False

    # Note that histogram_tools.py guarantees that all of the USE_COUNTER_*
    # histograms are defined in a contiguous block.  We therefore assume
    # that there's at most one group for which use_counter_group is true.
    for (use_counter_group, histograms) in groups:
        if use_counter_group:
            seen_use_counters = True

        # The HistogramDUMMY* enum variables are used to make the computation
        # of Histogram{First,Last}UseCounter easier.  Otherwise, we'd have to
        # special case the first and last histogram in the group.
        if use_counter_group:
            print "  HistogramFirstUseCounter,"
            print "  HistogramDUMMY1 = HistogramFirstUseCounter - 1,"

        for histogram in histograms:
            cpp_guard = histogram.cpp_guard()
            if cpp_guard:
                print "#if defined(%s)" % cpp_guard
            print "  %s," % histogram.name()
            if cpp_guard:
                print "#endif"

        if use_counter_group:
            print "  HistogramDUMMY2,"
            print "  HistogramLastUseCounter = HistogramDUMMY2 - 1,"

    print "  HistogramCount,"
    if seen_use_counters:
        print "  HistogramUseCounterCount = HistogramLastUseCounter - HistogramFirstUseCounter + 1"
    else:
        print "  HistogramFirstUseCounter = 0,"
        print "  HistogramLastUseCounter = 0,"
        print "  HistogramUseCounterCount = 0"
    print "};"
Exemplo n.º 12
0
def main(argv):
    filenames = argv

    print banner
    print "enum ID : uint32_t {"

    groups = itertools.groupby(histogram_tools.from_files(filenames),
                               lambda h: h.name().startswith("USE_COUNTER_"))
    seen_use_counters = False

    # Note that histogram_tools.py guarantees that all of the USE_COUNTER_*
    # histograms are defined in a contiguous block.  We therefore assume
    # that there's at most one group for which use_counter_group is true.
    for (use_counter_group, histograms) in groups:
        if use_counter_group:
            seen_use_counters = True

        # The HistogramDUMMY* enum variables are used to make the computation
        # of Histogram{First,Last}UseCounter easier.  Otherwise, we'd have to
        # special case the first and last histogram in the group.
        if use_counter_group:
            print "  HistogramFirstUseCounter,"
            print "  HistogramDUMMY1 = HistogramFirstUseCounter - 1,"

        for histogram in histograms:
            cpp_guard = histogram.cpp_guard()
            if cpp_guard:
                print "#if defined(%s)" % cpp_guard
            print "  %s," % histogram.name()
            if cpp_guard:
                print "#endif"

        if use_counter_group:
            print "  HistogramDUMMY2,"
            print "  HistogramLastUseCounter = HistogramDUMMY2 - 1,"

    print "  HistogramCount,"
    if seen_use_counters:
        print "  HistogramUseCounterCount = HistogramLastUseCounter - HistogramFirstUseCounter + 1"
    else:
        print "  HistogramUseCounterCount = 0"
    print "};"
Exemplo n.º 13
0
def main(output, *filenames):
    # Print header.
    print(banner, file=output)
    print(header, file=output)

    # Load the histograms.
    try:
        all_histograms = list(histogram_tools.from_files(filenames))
    except ParserError as ex:
        print("\nError processing histograms:\n" + str(ex) + "\n")
        sys.exit(1)

    groups = itertools.groupby(all_histograms,
                               lambda h: h.name().startswith("USE_COUNTER2_"))

    # Print the histogram enums.
    # Note that histogram_tools.py guarantees that all of the USE_COUNTER2_*
    # histograms are defined in a contiguous block.  We therefore assume
    # that there's at most one group for which use_counter_group is true.
    print("enum HistogramID : uint32_t {", file=output)
    seen_use_counters = False
    for (use_counter_group, histograms) in groups:
        if use_counter_group:
            seen_use_counters = True

        # The HistogramDUMMY* enum variables are used to make the computation
        # of Histogram{First,Last}UseCounter easier.  Otherwise, we'd have to
        # special case the first and last histogram in the group.
        if use_counter_group:
            print("  HistogramFirstUseCounter,", file=output)
            print("  HistogramDUMMY1 = HistogramFirstUseCounter - 1,",
                  file=output)

        for histogram in histograms:
            cpp_guard = histogram.cpp_guard()
            if cpp_guard:
                print("#if defined(%s)" % cpp_guard, file=output)
            print("  %s," % histogram.name(), file=output)
            if cpp_guard:
                print("#endif", file=output)

        if use_counter_group:
            print("  HistogramDUMMY2,", file=output)
            print("  HistogramLastUseCounter = HistogramDUMMY2 - 1,",
                  file=output)

    print("  HistogramCount,", file=output)
    if seen_use_counters:
        print(
            "  HistogramUseCounterCount = HistogramLastUseCounter -"
            " HistogramFirstUseCounter + 1",
            file=output)
    else:
        print("  HistogramFirstUseCounter = 0,", file=output)
        print("  HistogramLastUseCounter = 0,", file=output)
        print("  HistogramUseCounterCount = 0", file=output)
    print("};", file=output)

    # Write categorical label enums.
    categorical = filter(lambda h: h.kind() == "categorical", all_histograms)
    enums = [("LABELS_" + h.name(), h.labels(), h.name()) for h in categorical]
    for name, labels, _ in enums:
        print("\nenum class %s : uint32_t {" % name, file=output)
        print("  %s" % ",\n  ".join(labels), file=output)
        print("};", file=output)

    print("\ntemplate<class T> struct IsCategoricalLabelEnum : FalseType {};",
          file=output)
    for name, _, _ in enums:
        print("template<> struct IsCategoricalLabelEnum<%s> : TrueType {};" %
              name,
              file=output)

    print("\ntemplate<class T> struct CategoricalLabelId {};", file=output)
    for name, _, id in enums:
        print("template<> struct CategoricalLabelId<%s> : "
              "IntegralConstant<uint32_t, %s> {};" % (name, id),
              file=output)

    # Footer.
    print(footer, file=output)
Exemplo n.º 14
0
def main(output, *filenames):
    # Print header.
    print(banner, file=output)
    print(header, file=output)

    # Load the histograms.
    all_histograms = list(histogram_tools.from_files(filenames))
    groups = itertools.groupby(all_histograms,
                               lambda h: h.name().startswith("USE_COUNTER2_"))

    # Print the histogram enums.
    # Note that histogram_tools.py guarantees that all of the USE_COUNTER2_*
    # histograms are defined in a contiguous block.  We therefore assume
    # that there's at most one group for which use_counter_group is true.
    print("enum ID : uint32_t {", file=output)
    seen_use_counters = False
    for (use_counter_group, histograms) in groups:
        if use_counter_group:
            seen_use_counters = True

        # The HistogramDUMMY* enum variables are used to make the computation
        # of Histogram{First,Last}UseCounter easier.  Otherwise, we'd have to
        # special case the first and last histogram in the group.
        if use_counter_group:
            print("  HistogramFirstUseCounter,", file=output)
            print("  HistogramDUMMY1 = HistogramFirstUseCounter - 1,", file=output)

        for histogram in histograms:
            cpp_guard = histogram.cpp_guard()
            if cpp_guard:
                print("#if defined(%s)" % cpp_guard, file=output)
            print("  %s," % histogram.name(), file=output)
            if cpp_guard:
                print("#endif", file=output)

        if use_counter_group:
            print("  HistogramDUMMY2,", file=output)
            print("  HistogramLastUseCounter = HistogramDUMMY2 - 1,", file=output)

    print("  HistogramCount,", file=output)
    if seen_use_counters:
        print("  HistogramUseCounterCount = HistogramLastUseCounter - HistogramFirstUseCounter + 1", file=output)
    else:
        print("  HistogramFirstUseCounter = 0,", file=output)
        print("  HistogramLastUseCounter = 0,", file=output)
        print("  HistogramUseCounterCount = 0", file=output)
    print("};", file=output)

    # Write categorical label enums.
    categorical = filter(lambda h: h.kind() == "categorical", all_histograms)
    enums = [("LABELS_" + h.name(), h.labels(), h.name()) for h in categorical]
    for name,labels,_ in enums:
        print("\nenum class %s : uint32_t {" % name, file=output)
        print("  %s" % ",\n  ".join(labels), file=output)
        print("};", file=output)

    print("\ntemplate<class T> struct IsCategoricalLabelEnum : FalseType {};", file=output)
    for name,_,_ in enums:
        print("template<> struct IsCategoricalLabelEnum<%s> : TrueType {};" % name, file=output)

    print("\ntemplate<class T> struct CategoricalLabelId {};", file=output)
    for name,_,id in enums:
        print("template<> struct CategoricalLabelId<%s> : IntegralConstant<uint32_t, %s> {};" % (name, id), file=output)

    # Footer.
    print(footer, file=output)