FFmpeg: compat/cuda/cuda_runtime.h Source File

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cuda_runtime.h

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1 /*

2 * Minimum CUDA compatibility definitions header

3 *

4 * Copyright (c) 2019 rcombs

5 *

6 * This file is part of FFmpeg.

7 *

8 * FFmpeg is free software; you can redistribute it and/or

9 * modify it under the terms of the GNU Lesser General Public

10 * License as published by the Free Software Foundation; either

11 * version 2.1 of the License, or (at your option) any later version.

12 *

13 * FFmpeg is distributed in the hope that it will be useful,

14 * but WITHOUT ANY WARRANTY; without even the implied warranty of

15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU

16 * Lesser General Public License for more details.

17 *

18 * You should have received a copy of the GNU Lesser General Public

19 * License along with FFmpeg; if not, write to the Free Software

20 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA

21 */

22

23 #ifndef COMPAT_CUDA_CUDA_RUNTIME_H

24 #define COMPAT_CUDA_CUDA_RUNTIME_H

25

26 // Common macros

27 #define __global__ __attribute__((global))

28 #define __device__ __attribute__((device))

29 #define __device_builtin__ __attribute__((device_builtin))

30 #define __align__(N) __attribute__((aligned(N)))

31 #define __inline__ __inline__ __attribute__((always_inline))

32

33 #define max(a, b) ((a) > (b) ? (a) : (b))

34 #define min(a, b) ((a) < (b) ? (a) : (b))

35 #define abs(x) ((x) < 0 ? -(x) : (x))

36

37 #define atomicAdd(a, b) (__atomic_fetch_add(a, b, __ATOMIC_SEQ_CST))

38

39 // Basic typedefs

40 typedef __device_builtin__ unsigned long long cudaTextureObject_t;

41

42 typedef struct __device_builtin__ __align__(2) uchar2

43 {

44 unsigned char x, y;

46

47 typedef struct __device_builtin__ __align__(4) ushort2

48 {

49 unsigned short x, y;

51

52 typedef struct __device_builtin__ __align__(8) float2

53 {

54 float x, y;

56

57 typedef struct __device_builtin__ __align__(8) int2

58 {

59 int x, y;

61

62 typedef struct __device_builtin__ uint3

63 {

64 unsigned int x, y, z;

65 } uint3;

66

67 typedef struct uint3 dim3;

68

69 typedef struct __device_builtin__ __align__(4) uchar4

70 {

71 unsigned char x, y, z, w;

73

74 typedef struct __device_builtin__ __align__(8) ushort4

75 {

76 unsigned short x, y, z, w;

78

79 typedef struct __device_builtin__ __align__(16) int4

80 {

81 int x, y, z, w;

83

84 typedef struct __device_builtin__ __align__(16) float4

85 {

86 float x, y, z, w;

88

89 // Accessors for special registers

90 #define GETCOMP(reg, comp) \

91 asm("mov.u32 %0, %%" #reg "." #comp ";" : "=r"(tmp)); \

92 ret.comp = tmp;

93

94 #define GET(name, reg) static inline __device__ uint3 name() {\

95 uint3 ret; \

96 unsigned tmp; \

97 GETCOMP(reg, x) \

98 GETCOMP(reg, y) \

99 GETCOMP(reg, z) \

100 return ret; \

101 }

102

103 GET(getBlockIdx, ctaid)

104 GET(getBlockDim, ntid)

105 GET(getThreadIdx, tid)

106

107 // Instead of externs for these registers, we turn access to them into calls into trivial ASM

108 #define blockIdx (getBlockIdx())

109 #define blockDim (getBlockDim())

110 #define threadIdx (getThreadIdx())

111

112 // Basic initializers (simple macros rather than inline functions)

113 #define make_int2(a, b) ((int2){.x = a, .y = b})

114 #define make_uchar2(a, b) ((uchar2){.x = a, .y = b})

115 #define make_ushort2(a, b) ((ushort2){.x = a, .y = b})

116 #define make_float2(a, b) ((float2){.x = a, .y = b})

117 #define make_int4(a, b, c, d) ((int4){.x = a, .y = b, .z = c, .w = d})

118 #define make_uchar4(a, b, c, d) ((uchar4){.x = a, .y = b, .z = c, .w = d})

119 #define make_ushort4(a, b, c, d) ((ushort4){.x = a, .y = b, .z = c, .w = d})

120 #define make_float4(a, b, c, d) ((float4){.x = a, .y = b, .z = c, .w = d})

121

122 // Conversions from the tex instruction's 4-register output to various types

123 #define TEX2D(type, ret) static inline __device__ void conv(type* out, unsigned a, unsigned b, unsigned c, unsigned d) {*out = (ret);}

124

125 TEX2D(unsigned char, a & 0xFF)

126 TEX2D(unsigned short, a & 0xFFFF)

127 TEX2D(float, a)

128 TEX2D(uchar2, make_uchar2(a & 0xFF, b & 0xFF))

129 TEX2D(ushort2, make_ushort2(a & 0xFFFF, b & 0xFFFF))

130 TEX2D(float2, make_float2(a, b))

131 TEX2D(uchar4, make_uchar4(a & 0xFF, b & 0xFF, c & 0xFF, d & 0xFF))

132 TEX2D(ushort4, make_ushort4(a & 0xFFFF, b & 0xFFFF, c & 0xFFFF, d & 0xFFFF))

133 TEX2D(float4, make_float4(a, b, c, d))

134

135 // Template calling tex instruction and converting the output to the selected type

136 template<typename T>

137 inline __device__ T tex2D(cudaTextureObject_t texObject, float x, float y)

138 {

139 T ret;

140 unsigned ret1, ret2, ret3, ret4;

141 asm("tex.2d.v4.u32.f32 {%0, %1, %2, %3}, [%4, {%5, %6}];" :

142 "=r"(ret1), "=r"(ret2), "=r"(ret3), "=r"(ret4) :

143 "l"(texObject), "f"(x), "f"(y));

144 conv(&ret, ret1, ret2, ret3, ret4);

145 return ret;

146 }

147

148 template<>

149 inline __device__ float4 tex2D<float4>(cudaTextureObject_t texObject, float x, float y)

150 {

151 float4 ret;

152 asm("tex.2d.v4.f32.f32 {%0, %1, %2, %3}, [%4, {%5, %6}];" :

153 "=r"(ret.x), "=r"(ret.y), "=r"(ret.z), "=r"(ret.w) :

154 "l"(texObject), "f"(x), "f"(y));

155 return ret;

156 }

157

158 template<>

159 inline __device__ float tex2D<float>(cudaTextureObject_t texObject, float x, float y)

160 {

161 return tex2D<float4>(texObject, x, y).x;

162 }

163

164 template<>

165 inline __device__ float2 tex2D<float2>(cudaTextureObject_t texObject, float x, float y)

166 {

167 float4 ret = tex2D<float4>(texObject, x, y);

168 return make_float2(ret.x, ret.y);

169 }

170

171 // Math helper functions

172 static inline __device__ float floorf(float a) { return __builtin_floorf(a); }

173 static inline __device__ float floor(float a) { return __builtin_floorf(a); }

174 static inline __device__ double floor(double a) { return __builtin_floor(a); }

175 static inline __device__ float ceilf(float a) { return __builtin_ceilf(a); }

176 static inline __device__ float ceil(float a) { return __builtin_ceilf(a); }

177 static inline __device__ double ceil(double a) { return __builtin_ceil(a); }

178 static inline __device__ float truncf(float a) { return __builtin_truncf(a); }

179 static inline __device__ float trunc(float a) { return __builtin_truncf(a); }

180 static inline __device__ double trunc(double a) { return __builtin_trunc(a); }

181 static inline __device__ float fabsf(float a) { return __builtin_fabsf(a); }

182 static inline __device__ float fabs(float a) { return __builtin_fabsf(a); }

183 static inline __device__ double fabs(double a) { return __builtin_fabs(a); }

184 static inline __device__ float sqrtf(float a) { return __builtin_sqrtf(a); }

185

186 static inline __device__ float __saturatef(float a) { return __nvvm_saturate_f(a); }

187 static inline __device__ float __sinf(float a) { return __nvvm_sin_approx_f(a); }

188 static inline __device__ float __cosf(float a) { return __nvvm_cos_approx_f(a); }

189 static inline __device__ float __expf(float a) { return __nvvm_ex2_approx_f(a * (float)__builtin_log2(__builtin_exp(1))); }

190 static inline __device__ float __powf(float a, float b) { return __nvvm_ex2_approx_f(__nvvm_lg2_approx_f(a) * b); }

191

192 // Misc helper functions

193 extern "C" __device__ int printf(const char*, ...);

194

195 #endif /* COMPAT_CUDA_CUDA_RUNTIME_H */

#define GET(name, reg)

Definition: cuda_runtime.h:94

float4

Definition: cuda_runtime.h:87

__device__ int printf(const char *,...)

static __device__ float __expf(float a)

Definition: cuda_runtime.h:189

__device__ T tex2D(cudaTextureObject_t texObject, float x, float y)

Definition: cuda_runtime.h:137

ushort2

Definition: cuda_runtime.h:50

static __device__ float __cosf(float a)

Definition: cuda_runtime.h:188

static __device__ float floorf(float a)

Definition: cuda_runtime.h:172

w

uint8_t w

Definition: llviddspenc.c:38

b

#define b

Definition: input.c:42

static __device__ float ceilf(float a)

Definition: cuda_runtime.h:175

#define make_ushort2(a, b)

Definition: cuda_runtime.h:115

static __device__ float __sinf(float a)

Definition: cuda_runtime.h:187

static __device__ float trunc(float a)

Definition: cuda_runtime.h:179

static __device__ float fabsf(float a)

Definition: cuda_runtime.h:181

uchar2

Definition: cuda_runtime.h:45

T

#define T(x)

Definition: vpx_arith.h:29

static __device__ float ceil(float a)

Definition: cuda_runtime.h:176

tex2D< float2 >

__device__ float2 tex2D< float2 >(cudaTextureObject_t texObject, float x, float y)

Definition: cuda_runtime.h:165

#define __align__(N)

Definition: cuda_runtime.h:30

static __device__ float floor(float a)

Definition: cuda_runtime.h:173

cudaTextureObject_t

__device_builtin__ unsigned long long cudaTextureObject_t

Definition: cuda_runtime.h:40

static int conv(int samples, float **pcm, char *buf, int channels)

Definition: libvorbisdec.c:141

int2

Definition: cuda_runtime.h:60

static __device__ float fabs(float a)

Definition: cuda_runtime.h:182

#define TEX2D(type, ret)

Definition: cuda_runtime.h:123

ushort4

Definition: cuda_runtime.h:77

static __device__ float sqrtf(float a)

Definition: cuda_runtime.h:184

uchar4

Definition: cuda_runtime.h:72

static __device__ float __saturatef(float a)

Definition: cuda_runtime.h:186

__device_builtin__

#define __device_builtin__

Definition: cuda_runtime.h:29

#define make_uchar4(a, b, c, d)

Definition: cuda_runtime.h:118

c

Undefined Behavior In the C some operations are like signed integer dereferencing freed accessing outside allocated Undefined Behavior must not occur in a C it is not safe even if the output of undefined operations is unused The unsafety may seem nit picking but Optimizing compilers have in fact optimized code on the assumption that no undefined Behavior occurs Optimizing code based on wrong assumptions can and has in some cases lead to effects beyond the output of computations The signed integer overflow problem in speed critical code Code which is highly optimized and works with signed integers sometimes has the problem that often the output of the computation does not c

Definition: undefined.txt:32

a

The reader does not expect b to be semantically here and if the code is changed by maybe adding a a division or other the signedness will almost certainly be mistaken To avoid this confusion a new type was SUINT is the C unsigned type but it holds a signed int to use the same example SUINT a

Definition: undefined.txt:41

#define __device__

Definition: cuda_runtime.h:28

#define make_ushort4(a, b, c, d)

Definition: cuda_runtime.h:119

#define make_uchar2(a, b)

Definition: cuda_runtime.h:114

ret

Definition: filter_design.txt:187

unsigned int z

Definition: cuda_runtime.h:64

#define make_float4(a, b, c, d)

Definition: cuda_runtime.h:120

float2

Definition: cuda_runtime.h:55

__device__ float tex2D< float >(cudaTextureObject_t texObject, float x, float y)

Definition: cuda_runtime.h:159

tex2D< float4 >

__device__ float4 tex2D< float4 >(cudaTextureObject_t texObject, float x, float y)

Definition: cuda_runtime.h:149

static __device__ float __powf(float a, float b)

Definition: cuda_runtime.h:190

#define make_float2(a, b)

Definition: cuda_runtime.h:116

static __device__ float truncf(float a)

Definition: cuda_runtime.h:178

Definition: cuda_runtime.h:62

int4

Definition: cuda_runtime.h:82

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