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1 #include <stdio.h>
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2 #include <stdlib.h>
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3 #include <string.h>
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4 #include <sys/stat.h>
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5 #include <sys/mman.h>
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6 #include <sys/types.h>
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7 #include <fcntl.h>
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8 #include <unistd.h>
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9 #include <OpenCL/opencl.h>
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10 #include <oclUtils.h>
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11
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12 #define OUT_PARAM_NUM 4
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13 #define PRINT_PARAM_NUM 2
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14
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15 typedef struct {
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16 caddr_t file_mmap;
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17 off_t size;
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18 } st_mmap_t;
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19
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20 typedef struct {
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21 int work_num;
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22 int size;
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23 int remain_size;
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24 } param_t;
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25
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26
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27 static st_mmap_t
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28 my_mmap(char *filename)
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29 {
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30
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31 /*マッピングだよ!*/
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32 int fd = -1;
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33 int map = MAP_PRIVATE;
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34 st_mmap_t st_mmap;
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35 struct stat sb;
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36
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37 if ((fd=open(filename,O_RDONLY,0666))==0) {
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38 fprintf(stderr,"can't open %s\n",filename);
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39 }
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40
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41 if (fstat(fd,&sb)) {
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42 fprintf(stderr,"can't fstat %s\n",filename);
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43 }
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44
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45 st_mmap.size = sb.st_size;
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46
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47 printf("file size %d\n",(int)st_mmap.size);
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48
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49 st_mmap.file_mmap = (char*)mmap(NULL,st_mmap.size,PROT_READ,map,fd,(off_t)0);
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50 if (st_mmap.file_mmap == (caddr_t)-1) {
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51 fprintf(stderr,"Can't mmap file\n");
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52 perror(NULL);
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53 exit(0);
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54 }
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55
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56 return st_mmap;
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57
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58 }
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59
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60
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61
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62 int main(int args, char *argv[])
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63 {
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64
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65 char *filename = 0;
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66
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67 for (int i = 1; argv[i]; ++i) {
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68 if (strcmp(argv[i], "-file") == 0) {
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69 filename = argv[i+1];
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70 } else if (strcmp(argv[i], "-help")) {
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71 printf("Usage: ./word_count [-file filename]\n");
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72 }
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73 }
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74
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75 if (filename == 0) {
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76 printf("Usage: ./word_count [-file filename]\n");
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77 return 0;
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78 }
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79
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80 //指定されたファイルをメモリにmap
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81 st_mmap_t st_mmap = my_mmap(filename);
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82
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83 //kernelファイルの大きさ取得して、メモリ確保
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84 int fd = -1;
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85 const char *kernel_filename = "./word_count.cl";
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86 if ((fd=open(kernel_filename,O_RDONLY,0666))==0) {
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87 fprintf(stderr,"can't open %s\n",kernel_filename);
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88 }
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89
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90 struct stat sb;
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91 if (fstat(fd,&sb)) {
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92 fprintf(stderr,"can't fstat %s\n",filename);
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93 }
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94
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95 size_t source_size = sb.st_size;
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96 void *source_str = malloc(source_size);
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97
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98 int err = read(fd, source_str, source_size);
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99 if (err == -1) {
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100 fprintf(stderr,"can't read %s\n",filename);
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101 }
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102
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103 close(fd);
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104
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105 cl_platform_id platform_id = NULL;
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106 cl_uint ret_num_platforms = NULL;
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107 cl_int ret = clGetPlatformIDs(1, &platform_id, &ret_num_platforms);
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108
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109 cl_device_id device_id = NULL;
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110 cl_uint ret_num_devices = NULL;
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111 // CL_DEVICE_TYPE_CPU, CL_DEVICE_TYPE_GPU, と指定できる
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112 // CL_DEVICE_TYPE_DEFAULT はどうなるのか
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113 ret = clGetDeviceIDs( platform_id, CL_DEVICE_TYPE_CPU,
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114 1, &device_id, &ret_num_devices);
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115
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116 oclCheckError(ret, CL_SUCCESS);
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117
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118 //OpenCLコンテキストの作成
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119 cl_context context = clCreateContext( NULL, 1, &device_id, NULL, NULL, &ret);
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120 oclCheckError(ret, CL_SUCCESS);
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121 cl_command_queue command_queue = clCreateCommandQueue(context, device_id, 0, &ret);
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122 oclCheckError(ret, CL_SUCCESS);
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123 // カーネルプログラムを読み込む
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124 cl_program program = clCreateProgramWithSource(context, 1, (const char **)&source_str,
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125 (const size_t *)&source_size, &ret);
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126
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127 ret = clBuildProgram(program, 1, &device_id, NULL, NULL, NULL);
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128
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129 if (ret != CL_SUCCESS) {
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130 oclLogBuildInfo(program, device_id);
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131 }
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132
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133 oclCheckError(ret, CL_SUCCESS);
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134
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135 //カーネルプログラムをビルド
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136 //Task選択にあたる
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137 cl_kernel kernel = clCreateKernel(program, "word_count", &ret);
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138 oclCheckError(ret, CL_SUCCESS);
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139
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140 //カウントするテキストデータのメモリオブジェクト
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141 cl_mem text_memobj = clCreateBuffer(context, CL_MEM_READ_ONLY,
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142 st_mmap.size * sizeof(char), NULL, &ret);
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143
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144 ret = clEnqueueWriteBuffer(command_queue, text_memobj,
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145 CL_TRUE, 0, st_mmap.size, (char*)st_mmap.file_mmap,
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146 0, NULL, NULL);
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147
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148 oclCheckError(ret, CL_SUCCESS);
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149
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150 // 必要なパラメータのオブジェクト
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151 cl_mem param_memobj = clCreateBuffer(context, CL_MEM_READ_ONLY,
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152 sizeof(param_t), NULL, &ret);
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153
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154 ret = clEnqueueWriteBuffer(command_queue, param_memobj,
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155 CL_TRUE, 0, sizeof(int), (int*)(&st_mmap.size),
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156 0, NULL, NULL);
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157
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158 oclCheckError(ret, CL_SUCCESS);
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159
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160
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161 /*
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162 * 並列度の計算
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163 * wcするファイルの大きさに合わせる
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164 *
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165 */
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166
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167 // このdivi_size はどうやって決めるよ
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168 int divi_size = 1024;
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169 size_t global_work_size = (st_mmap.size + divi_size - 1) / divi_size;
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170 int remain_size = st_mmap.size - global_work_size * divi_size;
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171
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172 /*
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173 * 行数、単語数, 分割地点のフラグを格納する配列
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174 * word_num, line_num, head, tail
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175 */
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176
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177 int out_size = sizeof(int) * OUT_PARAM_NUM * global_work_size;
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178 cl_mem out_memobj = clCreateBuffer(context, CL_MEM_WRITE_ONLY,
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179 out_size * sizeof(char), NULL, &ret);
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180
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181 oclCheckError(ret, CL_SUCCESS);
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182
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183
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184 // 引数のSet
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185 // memory object にしなくてもできるsetできるかも
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186 ret = clSetKernelArg(kernel, 0, sizeof(cl_mem), (void *)&text_memobj);
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187 ret |= clSetKernelArg(kernel, 1, sizeof(cl_mem), (void *)¶m_memobj);
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188 ret |= clSetKernelArg(kernel, 2, sizeof(cl_mem), (void *)&out_memobj);
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189
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190 oclCheckError(ret, CL_SUCCESS);
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191
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192 /*
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193 * kernel実行
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194 * 並列に処理せずに work-item ひとつで動かしたい場合は、clEnqueueNDRangeKernel の簡易版 clEnqueueTask が使える
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195 *
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196 */
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197
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198 //ret = clEnqueueTask(command_queue, kernel, 0, NULL, NULL);
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199 // global_work_size は配列。並列動作させる時の次元数にあわせて、配列の次元数も決まるはず
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200 ret = clEnqueueNDRangeKernel(command_queue, kernel, 1, NULL, &global_work_size, NULL, 0, NULL, NULL);
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201
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202 oclCheckError(ret, CL_SUCCESS);
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203
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204 int *out_data = (int*)malloc(out_size);
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205
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206 // 演算結果の読み込み
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207 ret = clEnqueueReadBuffer(command_queue, out_memobj, CL_TRUE, 0,
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208 out_size, out_data, 0, NULL, NULL);
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209
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210 oclCheckError(ret, CL_SUCCESS);
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211
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212 printf("global_work_size %d\n", (int)global_work_size);
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213
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214 for (int i = 0; i < global_work_size; i++) {
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215 for (int j = 0; j < PRINT_PARAM_NUM; j++) {
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216 printf("%d ", out_data[i*OUT_PARAM_NUM+j]);
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217 }
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218 printf("\n");
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219 }
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220
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221 clFlush(command_queue);
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222 clFinish(command_queue);
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223 clReleaseKernel(kernel);
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224 clReleaseProgram(program);
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225 clReleaseMemObject(text_memobj);
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226 clReleaseMemObject(param_memobj);
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227 clReleaseMemObject(out_memobj);
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228 clReleaseCommandQueue(command_queue);
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229 clReleaseContext(context);
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230
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231 free(source_str);
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232 free(out_data);
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233
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234 return 0;
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235
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236 }
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