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Copy pathtypes.cpp
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967 lines (837 loc) · 23.9 KB
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#include <cassert>
#include <iostream>
#include <sstream>
#include "ast/async_event_types.h"
#include "struct.h"
#include "types.h"
#include "util/exceptions.h"
namespace bpftrace {
std::ostream &operator<<(std::ostream &os, Type type)
{
os << typestr(type);
return os;
}
std::ostream &operator<<(std::ostream &os, AddrSpace as)
{
os << addrspacestr(as);
return os;
}
std::ostream &operator<<(std::ostream &os, const SizedType &type)
{
os << typestr(type);
return os;
}
std::string typestr(const SizedType &type)
{
switch (type.GetTy()) {
case Type::integer:
if (type.IsEnumTy()) {
return std::string(ENUM_PREFIX) + type.GetName();
}
return (type.is_signed_ ? "int" : "uint") +
std::to_string(8 * type.GetSize());
case Type::string:
if (type.GetSize() == 0) {
return typestr(type.GetTy());
}
return typestr(type.GetTy()) + "[" + std::to_string(type.GetSize()) + "]";
case Type::inet:
case Type::buffer:
return typestr(type.GetTy()) + "[" + std::to_string(type.GetSize()) + "]";
case Type::pointer:
return typestr(type.GetPointeeTy()) + " *";
case Type::array:
return typestr(type.GetElementTy()) + "[" +
std::to_string(type.GetNumElements()) + "]";
case Type::c_type: {
if (!type.IsAnonTy())
return type.GetName();
// For anonymous structs/unions, return a string of the
// format "struct { field1type,... }"
const std::string &type_name = type.GetName();
std::string res = type_name.substr(0, type_name.find(" "));
size_t n = type.GetFieldCount();
res += " {";
for (size_t i = 0; i < n; ++i) {
res += typestr(type.GetField(i).type);
if (i != n - 1)
res += ",";
}
res += "}";
return res;
}
case Type::tuple: {
std::string res = "(";
size_t n = type.GetFieldCount();
for (size_t i = 0; i < n; ++i) {
res += typestr(type.GetField(i).type);
if (i != n - 1)
res += ",";
}
res += ")";
return res;
}
case Type::record: {
std::string res = "record";
size_t n = type.GetFieldCount();
res += " { ";
for (size_t i = 0; i < n; ++i) {
res += "." + type.GetField(i).name;
res += " = ";
res += typestr(type.GetField(i).type);
if (i != n - 1)
res += ", ";
}
res += " }";
return res;
}
case Type::kstack_t:
case Type::ustack_t:
return type.stack_type.name();
case Type::max_t:
case Type::min_t:
case Type::sum_t:
case Type::avg_t:
case Type::stats_t:
return (type.is_signed_ ? "" : "u") + typestr(type.GetTy());
case Type::count_t:
case Type::mac_address:
case Type::timestamp:
case Type::ksym_t:
case Type::usym_t:
case Type::username:
case Type::timestamp_mode:
case Type::cgroup_path_t:
case Type::hist_t:
case Type::lhist_t:
case Type::tseries_t:
case Type::none:
case Type::voidtype:
case Type::boolean:
return typestr(type.GetTy());
}
__builtin_unreachable();
}
std::string to_string(Type ty)
{
std::ostringstream ss;
ss << ty;
return ss.str();
}
bool SizedType::IsCompatible(const SizedType &t) const
{
if (t.GetTy() != type_)
return false;
if (IsCTypeTy())
return t.GetName() == GetName();
if (IsPtrTy())
return GetPointeeTy().IsCompatible(t.GetPointeeTy());
if (IsTupleTy()) {
if (GetFieldCount() != t.GetFieldCount())
return false;
for (ssize_t i = 0; i < GetFieldCount(); i++) {
if (!GetField(i).type.IsCompatible(t.GetField(i).type))
return false;
}
}
if (IsStack() && stack_type != t.stack_type) {
return false;
}
if (IsRecordTy() && t.IsRecordTy()) {
if (GetFieldCount() != t.GetFieldCount())
return false;
for (ssize_t i = 0; i < GetFieldCount(); i++) {
const auto &field_left = GetField(i);
if (!t.HasField(field_left.name)) {
return false;
}
const auto &field_right = t.GetField(field_left.name);
if (!field_left.type.IsCompatible(field_right.type))
return false;
}
}
if (IsArrayTy()) {
if (GetElementTy() != t.GetElementTy()) {
return false;
}
// Arrays wit no size e.g. `int8[]` are compatible with ones that do have a
// size
if ((GetSize() != 0) && (t.GetSize() != 0) && GetSize() != t.GetSize()) {
return false;
}
}
return true;
}
bool SizedType::IsEqual(const SizedType &t) const
{
return (*this <=> t) == 0;
}
bool SizedType::operator==(const SizedType &t) const
{
return IsEqual(t);
}
std::strong_ordering SizedType::operator<=>(const SizedType &t) const
{
if (auto cmp = type_ <=> t.type_; cmp != 0)
return cmp;
if (IsCTypeTy()) {
if (auto cmp = GetName() <=> t.GetName(); cmp != 0)
return cmp;
return GetSize() <=> t.GetSize();
}
if (IsEnumTy() || t.IsEnumTy()) {
if (auto cmp = GetName() <=> t.GetName(); cmp != 0)
return cmp;
return GetSize() <=> t.GetSize();
}
if (IsPtrTy()) {
return GetPointeeTy() <=> t.GetPointeeTy();
}
if (IsArrayTy()) {
if (auto cmp = GetNumElements() <=> t.GetNumElements(); cmp != 0)
return cmp;
return GetElementTy() <=> t.GetElementTy();
}
if (IsTupleTy()) {
if (auto cmp = GetFieldCount() <=> t.GetFieldCount(); cmp != 0)
return cmp;
for (ssize_t i = 0; i < GetFieldCount(); i++) {
if (auto cmp = GetField(i).type <=> t.GetField(i).type; cmp != 0)
return cmp;
}
return std::strong_ordering::equal;
}
if (IsRecordTy()) {
if (auto cmp = GetFieldCount() <=> t.GetFieldCount(); cmp != 0)
return cmp;
for (ssize_t i = 0; i < GetFieldCount(); i++) {
const auto &field_left = GetField(i);
const auto &field_right = t.GetField(i);
if (auto cmp = field_left.name <=> field_right.name; cmp != 0)
return cmp;
if (auto cmp = field_left.type <=> field_right.type; cmp != 0)
return cmp;
}
return std::strong_ordering::equal;
}
if (IsStack()) {
if (auto cmp = stack_type <=> t.stack_type; cmp != 0)
return cmp;
}
if (auto cmp = GetSize() <=> t.GetSize(); cmp != 0)
return cmp;
return is_signed_ <=> t.is_signed_;
}
bool SizedType::IsByteArray() const
{
return type_ == Type::string || type_ == Type::usym_t ||
type_ == Type::inet || type_ == Type::buffer ||
type_ == Type::timestamp || type_ == Type::mac_address ||
type_ == Type::cgroup_path_t;
}
bool SizedType::IsAggregate() const
{
return IsArrayTy() || IsByteArray() || IsTupleTy() || IsCTypeTy() ||
IsStack() || IsRecordTy();
}
bool SizedType::IsStack() const
{
return type_ == Type::ustack_t || type_ == Type::kstack_t;
}
std::string addrspacestr(AddrSpace as)
{
switch (as) {
case AddrSpace::kernel:
return "kernel";
break;
case AddrSpace::user:
return "user";
break;
case AddrSpace::none:
return "none";
break;
}
return {}; // unreached
}
std::string typestr(Type t)
{
switch (t) {
// clang-format off
case Type::none: return "none"; break;
case Type::voidtype: return "void"; break;
case Type::integer: return "int"; break;
case Type::pointer: return "pointer"; break;
case Type::c_type: return "c_type"; break;
case Type::hist_t: return "hist_t"; break;
case Type::lhist_t: return "lhist_t"; break;
case Type::tseries_t: return "tseries_t"; break;
case Type::count_t: return "count_t"; break;
case Type::sum_t: return "sum_t"; break;
case Type::min_t: return "min_t"; break;
case Type::max_t: return "max_t"; break;
case Type::avg_t: return "avg_t"; break;
case Type::stats_t: return "stats_t"; break;
case Type::kstack_t: return "kstack"; break;
case Type::ustack_t: return "ustack"; break;
case Type::string: return "string"; break;
case Type::ksym_t: return "ksym_t"; break;
case Type::usym_t: return "usym_t"; break;
case Type::username: return "username"; break;
case Type::inet: return "inet"; break;
case Type::array: return "array"; break;
case Type::buffer: return "buffer"; break;
case Type::tuple: return "tuple"; break;
case Type::record: return "record"; break;
case Type::timestamp:return "timestamp";break;
case Type::mac_address: return "mac_address"; break;
case Type::cgroup_path_t: return "cgroup_path_t"; break;
case Type::timestamp_mode: return "timestamp_mode"; break;
case Type::boolean: return "bool"; break;
// clang-format on
}
return {}; // unreached
}
// Type wrappers
SizedType CreateInteger(size_t bits, bool is_signed)
{
auto t = SizedType(Type::integer, 0, is_signed);
t.SetIntBitWidth(bits);
return t;
}
SizedType CreateBool()
{
return { Type::boolean, 1 };
}
SizedType CreateInt(size_t bits)
{
return CreateInteger(bits, true);
};
SizedType CreateUInt(size_t bits)
{
return CreateInteger(bits, false);
}
SizedType CreateInt8()
{
return CreateInt(8);
}
SizedType CreateInt16()
{
return CreateInt(16);
}
SizedType CreateInt32()
{
return CreateInt(32);
}
SizedType CreateInt64()
{
return CreateInt(64);
}
SizedType CreateUInt8()
{
return CreateUInt(8);
}
SizedType CreateUInt16()
{
return CreateUInt(16);
}
SizedType CreateUInt32()
{
return CreateUInt(32);
}
SizedType CreateUInt64()
{
return CreateUInt(64);
}
SizedType CreateEnum(size_t bits, const std::string &name)
{
auto ty = CreateUInt(bits);
ty.name_ = name;
return ty;
}
SizedType CreateString(size_t size)
{
return { Type::string, size };
}
SizedType CreateNone()
{
return { Type::none, 0 };
}
SizedType CreateVoid()
{
return { Type::voidtype, 0 };
}
SizedType CreateArray(size_t num_elements, const SizedType &element_type)
{
size_t size = num_elements * element_type.GetSize();
auto ty = SizedType(Type::array, size);
ty.element_type_ = std::make_shared<SizedType>(element_type);
ty.num_elements_ = num_elements;
return ty;
}
SizedType CreatePointer(const SizedType &pointee_type, AddrSpace as)
{
// Pointer itself is always an uint64
auto ty = SizedType(Type::pointer, 8);
ty.element_type_ = std::make_shared<SizedType>(pointee_type);
ty.SetAS(as);
return ty;
}
SizedType CreateCStruct(const std::string &name)
{
assert(!name.empty());
auto ty = SizedType(Type::c_type, 0);
ty.name_ = name;
return ty;
}
SizedType CreateCStruct(std::shared_ptr<Struct> &&record)
{
// A local anonymous record.
assert(record);
auto ty = SizedType(Type::c_type, record->size);
ty.inner_struct_ = std::move(record);
return ty;
}
SizedType CreateCStruct(const std::string &name, std::weak_ptr<Struct> record)
{
// A named type, stored in the `StructManager`.
assert(!name.empty() && !record.expired());
auto ty = SizedType(Type::c_type, record.lock()->size);
ty.name_ = name;
ty.inner_struct_ = std::move(record);
return ty;
}
SizedType CreateStack(bool kernel, StackType stack)
{
// These sizes are based on the stack struct (see
// IRBuilderBPF::GetStackStructType)
auto base_size = (stack.limit * stack.elem_size()) + 8;
auto st = SizedType(kernel ? Type::kstack_t : Type::ustack_t,
kernel ? base_size : (base_size + 8));
st.stack_type = stack;
st.stack_type.kernel = kernel;
return st;
}
SizedType CreateMin(bool is_signed)
{
return { Type::min_t, 8, is_signed };
}
SizedType CreateMax(bool is_signed)
{
return { Type::max_t, 8, is_signed };
}
SizedType CreateSum(bool is_signed)
{
return { Type::sum_t, 8, is_signed };
}
SizedType CreateCount()
{
return { Type::count_t, 8, false };
}
SizedType CreateAvg(bool is_signed)
{
return { Type::avg_t, 8, is_signed };
}
SizedType CreateStats(bool is_signed)
{
return { Type::stats_t, 8, is_signed };
}
SizedType CreateUsername()
{
return { Type::username, 8 };
}
SizedType CreateInet(size_t size)
{
auto st = SizedType(Type::inet, size);
st.is_internal = true;
return st;
}
SizedType CreateLhist()
{
return { Type::lhist_t, 8 };
}
SizedType CreateHist()
{
return { Type::hist_t, 8 };
}
SizedType CreateTSeries()
{
return { Type::tseries_t, 8 };
}
SizedType CreateUSym()
{
return { Type::usym_t, 16 };
}
SizedType CreateKSym()
{
return { Type::ksym_t, 8 };
}
SizedType CreateBuffer(size_t size)
{
auto metadata_headroom_bytes = sizeof(AsyncEvent::Buf);
return { Type::buffer, size + metadata_headroom_bytes };
}
SizedType CreateTimestamp()
{
return { Type::timestamp, 16 };
}
SizedType CreateTuple(std::shared_ptr<Struct> &&tuple)
{
auto s = SizedType(Type::tuple, tuple->size);
s.inner_struct_ = std::move(tuple);
return s;
}
SizedType CreateRecord(std::shared_ptr<Struct> &&record)
{
auto s = SizedType(Type::record, record->size);
s.inner_struct_ = std::move(record);
return s;
}
SizedType CreateMacAddress()
{
auto st = SizedType(Type::mac_address, 6);
st.is_internal = true;
return st;
}
SizedType CreateCgroupPath()
{
return { Type::cgroup_path_t, 16 };
}
SizedType CreateTimestampMode()
{
return { Type::timestamp_mode, 0 };
}
std::optional<SizedType> ident_to_builtin_type(const std::string &name)
{
static const std::unordered_map<std::string, SizedType> types = {
{ "bool", CreateBool() },
{ "int8", CreateInt(8) },
{ "int16", CreateInt(16) },
{ "int32", CreateInt(32) },
{ "int64", CreateInt(64) },
{ "uint8", CreateUInt(8) },
{ "uint16", CreateUInt(16) },
{ "uint32", CreateUInt(32) },
{ "uint64", CreateUInt(64) },
{ "void", CreateVoid() },
{ "min_t", CreateMin(true) },
{ "max_t", CreateMax(true) },
{ "sum_t", CreateSum(true) },
{ "count_t", CreateCount() },
{ "avg_t", CreateAvg(true) },
{ "stats_t", CreateStats(true) },
{ "umin_t", CreateMin(false) },
{ "umax_t", CreateMax(false) },
{ "usum_t", CreateSum(false) },
{ "uavg_t", CreateAvg(false) },
{ "ustats_t", CreateStats(false) },
{ "timestamp", CreateTimestamp() },
{ "macaddr_t", CreateMacAddress() },
{ "cgroup_path_t", CreateCgroupPath() },
// Sized types (without size parameter)
{ "string", CreateString(0) },
{ "buffer", CreateBuffer(0) },
{ "inet", CreateInet(0) },
};
auto it = types.find(name);
if (it != types.end())
return it->second;
return std::nullopt;
}
SizedType normalize_array_to_sized_type(SizedType type)
{
if (type.IsPtrTy()) {
auto pointee = normalize_array_to_sized_type(type.GetPointeeTy());
return CreatePointer(pointee, type.GetAS());
}
if (!type.IsArrayTy()) {
return type;
}
auto elem = type.GetElementTy();
auto size = type.GetNumElements();
// Only normalize Array(N, SizedBaseType) when the element matches the
// default (unparameterized) form. This avoids collapsing e.g.
// Array(4, String(2)) into String(4).
if (elem.GetSize() == 0) {
if (elem.IsStringTy()) {
return CreateString(size);
}
if (elem.IsBufferTy()) {
return CreateBuffer(size);
}
if (elem.IsInetTy()) {
return CreateInet(size);
}
}
// Recurse into element type for nested pointer/array combinations.
auto normalized = normalize_array_to_sized_type(elem);
return CreateArray(size, normalized);
}
std::optional<SizedType> get_promoted_int(const SizedType ¤tType,
const SizedType &newType)
{
bool currentSigned = currentType.IsSigned();
bool newSigned = newType.IsSigned();
auto currentSize = currentType.GetSize();
auto newSize = newType.GetSize();
bool result_flexible = currentType.IsSignFlexible() &&
newType.IsSignFlexible();
if (currentSigned != newSigned) {
// If one side has flexible sign (from a non-negative integer literal),
// adapt it to match the other side's sign and promote by size.
if (currentType.IsSignFlexible() || newType.IsSignFlexible()) {
bool sign = (!currentType.IsSignFlexible() && currentSigned) ||
(!newType.IsSignFlexible() && newSigned);
size_t promoted_size = std::max(currentSize, newSize);
auto result = CreateInteger(promoted_size * 8, sign);
result.SetSignFlexible(result_flexible);
return result;
}
if (currentSigned && currentSize > newSize) {
return CreateInteger(currentSize * 8, true);
} else if (newSigned && newSize > currentSize) {
return CreateInteger(newSize * 8, true);
}
size_t promoted_size = std::max(currentSize, newSize) * 2;
if (promoted_size > 8) {
// If both are 64 bits default to signed, which will yield a warning to
// the user.
return CreateInt64();
} else {
return CreateInteger(promoted_size * 8, true);
}
}
// Same sign - return the larger of the two
size_t promoted_size = std::max(currentSize, newSize);
auto result = CreateInteger(promoted_size * 8, currentSigned);
result.SetSignFlexible(result_flexible);
return result;
}
std::optional<SizedType> get_promoted_castable_map(const SizedType ¤tType,
const SizedType &newType)
{
if (currentType.IsSigned() != newType.IsSigned()) {
return currentType.IsSigned() ? currentType : newType;
}
return currentType;
}
static std::optional<SizedType> get_promoted_element(const SizedType ¤tTy,
const SizedType &newTy)
{
if (currentTy.IsIntegerTy()) {
return get_promoted_int(currentTy, newTy);
} else if (currentTy.IsCastableMapTy()) {
return get_promoted_castable_map(currentTy, newTy);
} else if (currentTy.IsTupleTy()) {
return get_promoted_tuple(currentTy, newTy);
} else if (currentTy.IsRecordTy()) {
return get_promoted_record(currentTy, newTy);
} else if (currentTy.IsStringTy()) {
auto promoted = currentTy;
promoted.SetSize(std::max(currentTy.GetSize(), newTy.GetSize()));
return promoted;
} else if (currentTy.IsPtrTy()) {
auto newPointeeTy = newTy.GetPointeeTy();
auto currentPointeeTy = currentTy.GetPointeeTy();
auto promoted = get_promoted_element(currentPointeeTy, newPointeeTy);
if (promoted) {
return CreatePointer(*promoted, newPointeeTy.GetAS());
} else {
return std::nullopt;
}
}
return currentTy;
}
std::optional<SizedType> get_promoted_tuple(const SizedType ¤tType,
const SizedType &newType)
{
assert(currentType.IsTupleTy() && currentType.IsCompatible(newType));
std::vector<SizedType> new_elems;
for (ssize_t i = 0; i < newType.GetFieldCount(); i++) {
auto promoted = get_promoted_element(currentType.GetField(i).type,
newType.GetField(i).type);
if (!promoted)
return std::nullopt;
new_elems.emplace_back(*promoted);
}
return CreateTuple(Struct::CreateTuple(new_elems));
}
std::optional<SizedType> get_promoted_record(const SizedType ¤tType,
const SizedType &newType)
{
assert(currentType.IsRecordTy() && currentType.IsCompatible(newType));
std::vector<SizedType> new_elems;
std::vector<std::string_view> names;
// Maintain the ordering of the currentType
for (const auto &field : currentType.GetFields()) {
names.emplace_back(field.name);
auto promoted = get_promoted_element(field.type,
newType.GetField(field.name).type);
if (!promoted)
return std::nullopt;
new_elems.emplace_back(*promoted);
}
return CreateRecord(Struct::CreateRecord(new_elems, names));
}
std::optional<SizedType> get_promoted_type(const SizedType ¤tType,
const SizedType &newType)
{
if (currentType.IsNoneTy()) {
if (newType.IsCastableMapTy()) {
return newType.IsSigned() ? CreateInt64() : CreateUInt64();
}
return newType;
}
if (currentType == newType) {
return newType;
}
if (!currentType.IsCompatible(newType)) {
if ((currentType.IsIntegerTy() && newType.IsCastableMapTy()) ||
(newType.IsIntegerTy() && currentType.IsCastableMapTy())) {
return get_promoted_int(currentType, newType);
}
return std::nullopt;
}
return get_promoted_element(currentType, newType);
}
bool SizedType::IsSigned() const
{
return is_signed_;
}
std::vector<Field> &SizedType::GetFields() const
{
assert(IsTupleTy() || IsCTypeTy() || IsRecordTy());
return inner_struct()->fields;
}
Field &SizedType::GetField(ssize_t n) const
{
assert(IsTupleTy() || IsCTypeTy() || IsRecordTy());
if (n >= GetFieldCount())
throw util::FatalUserException("Getfield(): out of bounds");
return inner_struct()->fields[n];
}
size_t SizedType::GetFieldIdx(const std::string &name) const
{
assert(IsRecordTy());
return inner_struct()->GetFieldIdx(name);
}
ssize_t SizedType::GetFieldCount() const
{
assert(IsTupleTy() || IsCTypeTy() || IsRecordTy());
return inner_struct()->fields.size();
}
void SizedType::DumpStructure(std::ostream &os)
{
assert(IsTupleTy() || IsRecordTy());
if (IsTupleTy())
os << "tuple";
else
os << "record";
inner_struct()->Dump(os);
}
ssize_t SizedType::GetInTupleAlignment() const
{
if (IsByteArray())
return 1;
if (IsTupleTy() || IsCTypeTy() || IsRecordTy())
return inner_struct()->align;
if (GetSize() <= 2)
return GetSize();
else if (IsArrayTy())
return element_type_->GetInTupleAlignment();
else if (GetSize() <= 4)
return 4;
else
return 8;
}
bool SizedType::HasField(const std::string &name) const
{
assert(IsCTypeTy() || IsRecordTy() || IsTupleTy());
return inner_struct()->HasField(name);
}
const Field &SizedType::GetField(const std::string &name) const
{
assert(IsCTypeTy() || IsRecordTy() || IsTupleTy());
return inner_struct()->GetField(name);
}
std::shared_ptr<Struct> SizedType::inner_struct() const
{
assert(IsCTypeTy() || IsTupleTy() || IsRecordTy());
return std::visit(
[](const auto &v) {
if constexpr (std::is_same_v<std::decay_t<decltype(v)>,
std::weak_ptr<Struct>>) {
return v.lock();
} else {
return v;
}
},
inner_struct_);
}
std::shared_ptr<const Struct> SizedType::GetStruct() const
{
assert(IsCTypeTy() || IsTupleTy() || IsRecordTy());
return inner_struct();
}
bool SizedType::FitsInto(const SizedType &t) const
{
if (!IsCompatible(t))
return false;
if (IsStringTy() && t.IsStringTy())
return GetSize() <= t.GetSize();
if (IsIntegerTy()) {
if (IsSigned() == t.IsSigned() || IsSignFlexible())
return GetSize() <= t.GetSize();
// Unsigned into signed requires the destination to be bigger than the
// source, e.g. uint32 -> int64. uint32 does not fit into int32.
if (!IsSigned())
return GetSize() < t.GetSize();
return false; // signed never fits into unsigned
}
if (IsTupleTy()) {
if (GetFieldCount() != t.GetFieldCount())
return false;
for (ssize_t i = 0; i < GetFieldCount(); i++) {
if (!GetField(i).type.FitsInto(t.GetField(i).type))
return false;
}
return true;
}
if (IsRecordTy()) {
if (GetFieldCount() != t.GetFieldCount())
return false;
for (ssize_t i = 0; i < GetFieldCount(); i++) {
const auto &field = GetField(i);
if (!field.type.FitsInto(t.GetField(field.name).type))
return false;
}
return true;
}
return IsEqual(t);
}
bool SizedType::NeedsPercpuMap() const
{
return IsHistTy() || IsLhistTy() || IsCountTy() || IsSumTy() || IsMinTy() ||
IsMaxTy() || IsAvgTy() || IsStatsTy() || IsTSeriesTy();
}
std::ostream &operator<<(std::ostream &os, TSeriesAggFunc agg)
{
switch (agg) {
case TSeriesAggFunc::none:
os << "none";
break;
case TSeriesAggFunc::avg:
os << "avg";
break;
case TSeriesAggFunc::max:
os << "max";
break;
case TSeriesAggFunc::min:
os << "min";
break;
case TSeriesAggFunc::sum:
os << "sum";
break;
}
return os;
}
} // namespace bpftrace