提交 60857f49 编写于 作者: Y Yu Yang

Unify clang-format and add some missing clang-format

上级 5fb1b407
---
Language: Cpp
BasedOnStyle: Google
Standard: Cpp11
...
../framework/.clang-format
\ No newline at end of file
---
Language: Cpp
BasedOnStyle: Google
Standard: Cpp11
...
../framework/.clang-format
\ No newline at end of file
../framework/.clang-format
\ No newline at end of file
......@@ -169,8 +169,7 @@ All parameter, weight, gradient are variables in Paddle.
py::return_value_policy::reference)
.def("find_var", &Scope::FindVar, py::return_value_policy::reference)
.def(py::init<>())
.def("new_scope",
[](Scope &self) -> Scope * { return &self.NewScope(); },
.def("new_scope", [](Scope &self) -> Scope * { return &self.NewScope(); },
py::return_value_policy::reference)
.def("drop_kids", &Scope::DropKids);
......@@ -238,8 +237,7 @@ All parameter, weight, gradient are variables in Paddle.
})
.def("infer_shape", &OperatorBase::InferShape)
.def("run",
[](OperatorBase &self,
const Scope &scope,
[](OperatorBase &self, const Scope &scope,
const platform::DeviceContext &dev_ctx) {
self.Run(scope, dev_ctx);
dev_ctx.Wait();
......@@ -267,10 +265,8 @@ All parameter, weight, gradient are variables in Paddle.
retv->SetType("plain_net");
return retv;
})
.def("append_op",
[](operators::NetOp &self, const OperatorBase &op) {
self.AppendOp(op);
})
.def("append_op", [](operators::NetOp &self,
const OperatorBase &op) { self.AppendOp(op); })
.def("complete_add_op", &operators::NetOp::CompleteAddOp)
.def("complete_add_op", [](std::shared_ptr<operators::NetOp> &self) {
self->CompleteAddOp();
......@@ -290,9 +286,10 @@ All parameter, weight, gradient are variables in Paddle.
auto rnn_op = OpRegistry::CreateOp(desc);
return static_cast<operators::RecurrentOp *>(rnn_op.release());
})
.def("set_stepnet",
[](operators::RecurrentOp &self, const operators::NetOp &net)
-> void { self.set_stepnet(net.Clone()); });
.def("set_stepnet", [](operators::RecurrentOp &self,
const operators::NetOp &net) -> void {
self.set_stepnet(net.Clone());
});
// cond_op
py::class_<operators::CondOp, OperatorBase>(m, "CondOp")
......
......@@ -63,11 +63,8 @@ struct CastToPyBufferImpl<true, I, ARGS...> {
}
return py::buffer_info(
dst_tensor.mutable_data<CUR_TYPE>(dst_tensor.holder_->place()),
sizeof(CUR_TYPE),
py::format_descriptor<CUR_TYPE>::format(),
(size_t)framework::arity(dst_tensor.dims()),
dims_outside,
strides);
sizeof(CUR_TYPE), py::format_descriptor<CUR_TYPE>::format(),
(size_t)framework::arity(dst_tensor.dims()), dims_outside, strides);
} else {
constexpr bool less = I + 1 < std::tuple_size<std::tuple<ARGS...>>::value;
return CastToPyBufferImpl<less, I + 1, ARGS...>()(tensor);
......@@ -110,8 +107,8 @@ void PyCUDATensorSetFromArray(
self.Resize(framework::make_ddim(dims));
auto *dst = self.mutable_data<T>(place);
paddle::platform::GpuMemcpySync(
dst, array.data(), sizeof(T) * array.size(), cudaMemcpyHostToDevice);
paddle::platform::GpuMemcpySync(dst, array.data(), sizeof(T) * array.size(),
cudaMemcpyHostToDevice);
}
#endif
......
../framework/.clang-format
\ No newline at end of file
......@@ -30,7 +30,7 @@ namespace string {
// its syntax is simple as it doesn't own/manage the string, it is
// cheap to construct Pieces and pass them around.
class Piece {
public:
public:
static const size_t npos = static_cast<size_t>(-1);
// We provide non-explicit singleton constructors so users can
......@@ -57,7 +57,7 @@ public:
// Return a string that contains the copy of the referenced data.
std::string ToString() const { return std::string(data_, size_); }
private:
private:
const char* data_;
size_t size_;
......
......@@ -11,6 +11,6 @@ TEST(StringPrintf, StringPrintf) {
long hour = 14;
int min = 44;
EXPECT_EQ(std::string("Wednesday, July 27, 14:44"),
paddle::string::Sprintf(
"%s, %s %d, %.2d:%.2d", weekday, month, day, hour, min));
paddle::string::Sprintf("%s, %s %d, %.2d:%.2d", weekday, month, day,
hour, min));
}
......@@ -133,7 +133,7 @@ namespace detail {
// Test whether type T1 is convertible to type T2
template <typename T1, typename T2>
struct is_convertible {
private:
private:
// two types of different size
struct fail {
char dummy[2];
......@@ -146,7 +146,7 @@ private:
static succeed tryConvert(const T2 &);
static const T1 &makeT1();
public:
public:
// Standard trick: the (...) version of tryConvert will be chosen from
// the overload set only if the version taking a T2 doesn't match.
// Then we compare the sizes of the return types to check which
......@@ -156,8 +156,7 @@ public:
// Format the value by casting to type fmtT. This default implementation
// should never be called.
template <typename T,
typename fmtT,
template <typename T, typename fmtT,
bool convertible = is_convertible<T, fmtT>::value>
struct formatValueAsType {
static void invoke(std::ostream & /*out*/, const T & /*value*/) { assert(0); }
......@@ -227,11 +226,8 @@ TINYFORMAT_DEFINE_FORMAT_TRUNCATED_CSTR(char)
/// operator<< to format the type T, with special cases for the %c and %p
/// conversions.
template <typename T>
inline void formatValue(std::ostream &out,
const char * /*fmtBegin*/,
const char *fmtEnd,
int ntrunc,
const T &value) {
inline void formatValue(std::ostream &out, const char * /*fmtBegin*/,
const char *fmtEnd, int ntrunc, const T &value) {
// The mess here is to support the %c and %p conversions: if these
// conversions are active we try to convert the type to a char or const
// void* respectively and format that instead of the value itself. For the
......@@ -253,25 +249,22 @@ inline void formatValue(std::ostream &out,
}
// Overloaded version for char types to support printing as an integer
#define TINYFORMAT_DEFINE_FORMATVALUE_CHAR(charType) \
inline void formatValue(std::ostream &out, \
const char * /*fmtBegin*/, \
const char *fmtEnd, \
int /**/, \
charType value) { \
switch (*(fmtEnd - 1)) { \
case 'u': \
case 'd': \
case 'i': \
case 'o': \
case 'X': \
case 'x': \
out << static_cast<int>(value); \
break; \
default: \
out << value; \
break; \
} \
#define TINYFORMAT_DEFINE_FORMATVALUE_CHAR(charType) \
inline void formatValue(std::ostream &out, const char * /*fmtBegin*/, \
const char *fmtEnd, int /**/, charType value) { \
switch (*(fmtEnd - 1)) { \
case 'u': \
case 'd': \
case 'i': \
case 'o': \
case 'X': \
case 'x': \
out << static_cast<int>(value); \
break; \
default: \
out << value; \
break; \
} \
}
// per 3.9.1: char, signed char and unsigned char are all distinct types
TINYFORMAT_DEFINE_FORMATVALUE_CHAR(char)
......@@ -468,7 +461,7 @@ namespace detail {
// each argument to be allocated as a homogenous array inside FormatList
// whereas a naive implementation based on inheritance does not.
class FormatArg {
public:
public:
FormatArg() {}
template <typename T>
......@@ -477,22 +470,17 @@ public:
m_formatImpl(&formatImpl<T>),
m_toIntImpl(&toIntImpl<T>) {}
void format(std::ostream &out,
const char *fmtBegin,
const char *fmtEnd,
void format(std::ostream &out, const char *fmtBegin, const char *fmtEnd,
int ntrunc) const {
m_formatImpl(out, fmtBegin, fmtEnd, ntrunc, m_value);
}
int toInt() const { return m_toIntImpl(m_value); }
private:
private:
template <typename T>
static void formatImpl(std::ostream &out,
const char *fmtBegin,
const char *fmtEnd,
int ntrunc,
const void *value) {
static void formatImpl(std::ostream &out, const char *fmtBegin,
const char *fmtEnd, int ntrunc, const void *value) {
formatValue(out, fmtBegin, fmtEnd, ntrunc, *static_cast<const T *>(value));
}
......@@ -502,11 +490,8 @@ private:
}
const void *m_value;
void (*m_formatImpl)(std::ostream &out,
const char *fmtBegin,
const char *fmtEnd,
int ntrunc,
const void *value);
void (*m_formatImpl)(std::ostream &out, const char *fmtBegin,
const char *fmtEnd, int ntrunc, const void *value);
int (*m_toIntImpl)(const void *value);
};
......@@ -555,12 +540,10 @@ inline const char *printFormatStringLiteral(std::ostream &out,
// necessary to pull out variable width and precision . The function returns a
// pointer to the character after the end of the current format spec.
inline const char *streamStateFromFormat(std::ostream &out,
bool &spacePadPositive,
int &ntrunc,
bool &spacePadPositive, int &ntrunc,
const char *fmtStart,
const detail::FormatArg *formatters,
int &argIndex,
int numFormatters) {
int &argIndex, int numFormatters) {
if (*fmtStart != '%') {
TINYFORMAT_ERROR(
"tinyformat: Not enough conversion specifiers in format string");
......@@ -736,10 +719,8 @@ inline const char *streamStateFromFormat(std::ostream &out,
}
//------------------------------------------------------------------------------
inline void formatImpl(std::ostream &out,
const char *fmt,
const detail::FormatArg *formatters,
int numFormatters) {
inline void formatImpl(std::ostream &out, const char *fmt,
const detail::FormatArg *formatters, int numFormatters) {
// Saved stream state
std::streamsize origWidth = out.width();
std::streamsize origPrecision = out.precision();
......@@ -751,13 +732,9 @@ inline void formatImpl(std::ostream &out,
fmt = printFormatStringLiteral(out, fmt);
bool spacePadPositive = false;
int ntrunc = -1;
const char *fmtEnd = streamStateFromFormat(out,
spacePadPositive,
ntrunc,
fmt,
formatters,
argIndex,
numFormatters);
const char *fmtEnd =
streamStateFromFormat(out, spacePadPositive, ntrunc, fmt, formatters,
argIndex, numFormatters);
if (argIndex >= numFormatters) {
// Check args remain after reading any variable width/precision
TINYFORMAT_ERROR("tinyformat: Not enough format arguments");
......@@ -806,15 +783,14 @@ inline void formatImpl(std::ostream &out,
/// information has been stripped from the arguments, leaving just enough of a
/// common interface to perform formatting as required.
class FormatList {
public:
public:
FormatList(detail::FormatArg *formatters, int N)
: m_formatters(formatters), m_N(N) {}
friend void vformat(std::ostream &out,
const char *fmt,
friend void vformat(std::ostream &out, const char *fmt,
const FormatList &list);
private:
private:
const detail::FormatArg *m_formatters;
int m_N;
};
......@@ -827,7 +803,7 @@ namespace detail {
// Format list subclass with fixed storage to avoid dynamic allocation
template <int N>
class FormatListN : public FormatList {
public:
public:
template <typename... Args>
FormatListN(const Args &... args)
: FormatList(&m_formatterStore[0], N),
......@@ -835,14 +811,14 @@ public:
static_assert(sizeof...(args) == N, "Number of args must be N");
}
private:
private:
FormatArg m_formatterStore[N];
};
// Special 0-arg version - MSVC says zero-sized C array in struct is nonstandard
template <>
class FormatListN<0> : public FormatList {
public:
public:
FormatListN() : FormatList(0, 0) {}
};
......
......@@ -17,7 +17,7 @@
constexpr char kOutputString[] = "User Defined Output";
class UserDefinedClass {
public:
public:
};
std::ostream& operator<<(std::ostream& s, const UserDefinedClass& ins) {
......
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