Upload apex-master/csrc/type_shim.h with huggingface_hub

apex-master/csrc/type_shim.h

@@ -0,0 +1,420 @@
+#include <ATen/ATen.h>
+#include "compat.h"
+
+// Forward/backward compatiblity hack around
+// https://github.com/pytorch/pytorch/commit/3aeb78079bcd68282fe9117088e138b77318e288
+// pending more future-proof guidance from upstream.
+// struct TypeShim
+// {
+//   const at::Type& payload;
+//   TypeShim(const at::Type& type) : payload(type) {}
+//   // Enable trivial conversion to a const at::Type& for pre-3aeb78
+//   operator const at::Type&(){ return payload; };
+//   // Enable dispatch switch statements to take *this directly for  post-3aeb78
+//   //operator at::ScalarType(){ return payload.; };
+// };
+
+#define DISPATCH_FLOAT_AND_HALF(TYPE, LEVEL, NAME, ...) \
+  switch(TYPE) \
+  { \
+    case at::ScalarType::Float: \
+    { \
+      using scalar_t_##LEVEL = float; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    case at::ScalarType::Half: \
+    { \
+      using scalar_t_##LEVEL = at::Half; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    default: \
+      AT_ERROR(#NAME, " not implemented for '", toString(TYPE), "'");  \
+  }
+
+
+#define DISPATCH_FLOAT_HALF_AND_BFLOAT(TYPE, LEVEL, NAME, ...) \
+  switch(TYPE) \
+  { \
+    case at::ScalarType::Float: \
+    { \
+      using scalar_t_##LEVEL = float; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    case at::ScalarType::Half: \
+    { \
+      using scalar_t_##LEVEL = at::Half; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    case at::ScalarType::BFloat16: \
+    { \
+      using scalar_t_##LEVEL = at::BFloat16; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    default: \
+      AT_ERROR(#NAME, " not implemented for '", toString(TYPE), "'");  \
+  }
+
+
+#define DISPATCH_FLOAT_HALF_AND_BYTE(TYPE, LEVEL, NAME, ...) \
+  switch(TYPE) \
+  { \
+    case at::ScalarType::Float: \
+    { \
+      using scalar_t_##LEVEL = float; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    case at::ScalarType::Half: \
+    { \
+      using scalar_t_##LEVEL = at::Half; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    case at::ScalarType::Byte: \
+    { \
+      using scalar_t_##LEVEL = uint8_t; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    default: \
+      AT_ERROR(#NAME, " not implemented for '", toString(TYPE), "'");  \
+  }
+
+
+#define DISPATCH_DOUBLE_FLOAT_AND_HALF(TYPE, LEVEL, NAME, ...) \
+  switch(TYPE) \
+  { \
+    case at::ScalarType::Double: \
+    { \
+      using scalar_t_##LEVEL = double; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    case at::ScalarType::Float: \
+    { \
+      using scalar_t_##LEVEL = float; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    case at::ScalarType::Half: \
+    { \
+      using scalar_t_##LEVEL = at::Half; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    default: \
+      AT_ERROR(#NAME, " not implemented for '", toString(TYPE), "'");  \
+  }
+
+
+#define DISPATCH_DOUBLE_FLOAT_HALF_AND_BFLOAT(TYPE, LEVEL, NAME, ...) \
+  switch(TYPE) \
+  { \
+    case at::ScalarType::Double: \
+    { \
+      using scalar_t_##LEVEL = double; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    case at::ScalarType::Float: \
+    { \
+      using scalar_t_##LEVEL = float; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    case at::ScalarType::Half: \
+    { \
+      using scalar_t_##LEVEL = at::Half; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    case at::ScalarType::BFloat16: \
+    { \
+      using scalar_t_##LEVEL = at::BFloat16; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    default: \
+      AT_ERROR(#NAME, " not implemented for '", toString(TYPE), "'");  \
+  }
+
+
+  #define DISPATCH_DOUBLE_AND_FLOAT(TYPE, LEVEL, NAME, ...) \
+  switch(TYPE) \
+  { \
+    case at::ScalarType::Double: \
+    { \
+      using scalar_t_##LEVEL = double; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    case at::ScalarType::Float: \
+    { \
+      using scalar_t_##LEVEL = float; \
+      __VA_ARGS__; \
+      break; \
+    } \
+    default: \
+      AT_ERROR(#NAME, " not implemented for '", toString(TYPE), "'");  \
+  }
+
+
+  #define DISPATCH_HALF_AND_BFLOAT(TYPE, NAME, ...)			\
+  switch(TYPE)								\
+    {									\
+    case at::ScalarType::Half:						\
+      {									\
+	using scalar_t = at::Half;					\
+	__VA_ARGS__;							\
+	break;								\
+      }									\
+    case at::ScalarType::BFloat16:					\
+      {									\
+	using scalar_t = at::BFloat16;					\
+	__VA_ARGS__;							\
+	break;								\
+      }									\
+    default:								\
+      AT_ERROR(#NAME, " not implemented for '", toString(TYPE), "'");	\
+  }
+
+
+  #define DISPATCH_FLOAT_HALF_AND_BFLOAT_INOUT_TYPES(TYPEIN, TYPEOUT, NAME, ...) \
+  switch(TYPEIN)							\
+    {									\
+    case at::ScalarType::Float:						\
+      {									\
+	using scalar_t_in = float;					\
+	switch(TYPEOUT)							\
+	  {								\
+	  case at::ScalarType::Float:					\
+	    {								\
+	      using scalar_t_out = float;				\
+	      __VA_ARGS__;						\
+	      break;							\
+	    }								\
+	  case at::ScalarType::Half:					\
+	    {								\
+	      using scalar_t_out = at::Half;				\
+	      __VA_ARGS__;						\
+	      break;							\
+	    }								\
+	  case at::ScalarType::BFloat16:				\
+	    {								\
+	      using scalar_t_out = at::BFloat16;			\
+	      __VA_ARGS__;						\
+	      break;							\
+	    }								\
+	  default:							\
+	    AT_ERROR(#NAME, " not implemented for '", toString(TYPEOUT), "'"); \
+	  }								\
+	break;								\
+      }									\
+    case at::ScalarType::Half:						\
+      {									\
+	using scalar_t_in = at::Half;					\
+	using scalar_t_out = at::Half;					\
+	__VA_ARGS__;							\
+	break;								\
+      }									\
+    case at::ScalarType::BFloat16:					\
+      {									\
+	using scalar_t_in = at::BFloat16;				\
+	using scalar_t_out = at::BFloat16;				\
+	__VA_ARGS__;							\
+	break;								\
+      }									\
+    default:								\
+      AT_ERROR(#NAME, " not implemented for '", toString(TYPEIN), "'");	\
+    }
+
+
+  #define DISPATCH_DOUBLE_FLOAT_HALF_AND_BFLOAT_INOUT_TYPES(TYPEIN, TYPEOUT, NAME, ...) \
+  switch(TYPEIN)							\
+    {									\
+    case at::ScalarType::Double:						\
+      {									\
+	using scalar_t_in = double;					\
+	switch(TYPEOUT)							\
+	  {								\
+	  case at::ScalarType::Double:					\
+	    {								\
+	      using scalar_t_out = double;				\
+	      __VA_ARGS__;						\
+	      break;							\
+	    }								\
+	  case at::ScalarType::Float:					\
+	    {								\
+	      using scalar_t_out = float;				\
+	      __VA_ARGS__;						\
+	      break;							\
+	    }								\
+	  case at::ScalarType::Half:					\
+	    {								\
+	      using scalar_t_out = at::Half;				\
+	      __VA_ARGS__;						\
+	      break;							\
+	    }								\
+	  case at::ScalarType::BFloat16:				\
+	    {								\
+	      using scalar_t_out = at::BFloat16;			\
+	      __VA_ARGS__;						\
+	      break;							\
+	    }								\
+	  default:							\
+	    AT_ERROR(#NAME, " not implemented for '", toString(TYPEOUT), "'"); \
+	  }								\
+	break;								\
+      }									\
+    case at::ScalarType::Float:						\
+      {									\
+	using scalar_t_in = float;					\
+	switch(TYPEOUT)							\
+	  {								\
+	  case at::ScalarType::Float:					\
+	    {								\
+	      using scalar_t_out = float;				\
+	      __VA_ARGS__;						\
+	      break;							\
+	    }								\
+	  case at::ScalarType::Half:					\
+	    {								\
+	      using scalar_t_out = at::Half;				\
+	      __VA_ARGS__;						\
+	      break;							\
+	    }								\
+	  case at::ScalarType::BFloat16:				\
+	    {								\
+	      using scalar_t_out = at::BFloat16;			\
+	      __VA_ARGS__;						\
+	      break;							\
+	    }								\
+	  default:							\
+	    AT_ERROR(#NAME, " not implemented for '", toString(TYPEOUT), "'"); \
+	  }								\
+	break;								\
+      }									\
+    case at::ScalarType::Half:						\
+      {									\
+	using scalar_t_in = at::Half;					\
+	using scalar_t_out = at::Half;					\
+	__VA_ARGS__;							\
+	break;								\
+      }									\
+    case at::ScalarType::BFloat16:					\
+      {									\
+	using scalar_t_in = at::BFloat16;				\
+	using scalar_t_out = at::BFloat16;				\
+	__VA_ARGS__;							\
+	break;								\
+      }									\
+    default:								\
+      AT_ERROR(#NAME, " not implemented for '", toString(TYPEIN), "'");	\
+    }
+
+
+template<typename T>
+__device__ __forceinline__ T reduce_block_into_lanes
+  (T *x,
+   T val,
+   int lanes=1,
+   bool share_result=false) // lanes is intended to be <= 32.
+{
+  int tid = threadIdx.x + threadIdx.y*blockDim.x;
+  int blockSize = blockDim.x*blockDim.y; // blockSize is intended to be a multiple of 32.
+
+  if(blockSize >= 64)
+  {
+    x[tid] = val;
+    __syncthreads();
+  }
+
+  #pragma unroll
+  for(int i = (blockSize >> 1); i >= 64; i >>= 1)
+  {
+    if(tid < i)
+      x[tid] = x[tid] + x[tid+i];
+    __syncthreads();
+  }
+
+  T final;
+
+  if(tid < 32)
+  {
+    if(blockSize >= 64)
+      final = x[tid] + x[tid+32];
+    else
+      final = val;
+    // __SYNCWARP();
+
+    #pragma unroll
+    for(int i = 16; i >= lanes; i >>= 1)
+      final = final + __shfl_down_sync(0xffffffff, final, i);
+  }
+
+  if(share_result)
+  {
+    if(tid < lanes)
+      x[tid] = final; // EpilogueOp
+    // Make sure the smem result is visible to all warps.
+  }
+  __syncthreads();
+  // Avoid potential write before read race when reduce_block_into_lanes is called back to back
+
+  return final;
+}
+
+template<typename T>
+__device__ __forceinline__ T reduce_block_into_lanes_max_op
+  (T *x,
+   T val,
+   int lanes=1,
+   bool share_result=false) // lanes is intended to be <= 32.
+{
+  int tid = threadIdx.x + threadIdx.y*blockDim.x;
+  int blockSize = blockDim.x*blockDim.y; // blockSize is intended to be a multiple of 32.
+
+  if(blockSize >= 64)
+  {
+    x[tid] = val;
+    __syncthreads();
+  }
+
+  #pragma unroll
+  for(int i = (blockSize >> 1); i >= 64; i >>= 1)
+  {
+    if(tid < i)
+      x[tid] = fmaxf(fabsf(x[tid]), fabsf(x[tid+i]));
+    __syncthreads();
+  }
+
+  T final;
+
+  if(tid < 32)
+  {
+    if(blockSize >= 64)
+      final = fmaxf(fabsf(x[tid]), fabsf(x[tid+32]));
+    else
+      final = val;
+    // __SYNCWARP();
+
+    #pragma unroll
+    for(int i = 16; i >= lanes; i >>= 1)
+      final = fmaxf(fabsf(final), fabsf(__shfl_down_sync(0xffffffff, final, i)));
+  }
+
+  if(share_result)
+  {
+    if(tid < lanes)
+      x[tid] = final; // EpilogueOp
+    // Make sure the smem result is visible to all warps.
+    __syncthreads();
+  }
+
+  return final;
+}