LOGGING = { 'version': 1, 'disable_existing_loggers': False, 'formatters': { 'production': { 'format': '%(asctime)s [%(levelname)s] %(process)d %(thread)d ' '%(pathname)s:%(lineno)d %(message)s' }, }, 'handlers': { 'file': { 'class': 'logging.handlers.TimedRotatingFileHandler', 'filename': '/var/log/django/django.log', 'formatter': 'production', # 'level': 'INFO', 'when': 'D', 'interval': 1, 'backupCount': 14, }, }, 'loggers': { '': { 'handlers': ['file'], # 'level': 'INFO', 'propagate': False, }, 'django': { 'handlers': ['file'], # 'level': 'INFO', 'propagate': False, }, },
import sys import os import glob import random import shutil import errno args = sys.argv try: os.makedirs( "./test" ) os.makedirs( "./train" ) os.makedirs( "./valid" ) except OSError as e: if e.errno != errno.EEXIST: raise e fileList = glob.glob( "./*.mid*" ) #print( "hello" ) #print( args[1] ) for file in fileList: randNum = random.randint(0,11) if 0 == randNum: shutil.copy( file, "./test" ) elif 1 == randNum: shutil.copy( file, "./valid" ) else: shutil.copy( file, "./train" ) sys.exit()
#include <stdio.h> #include <time.h> #include <stdlib.h> int main( void ) { int rtnCod = 0; char strArr[10][9] = { "", }; int intArr[10] = { 0, }; int cnt = 0; int num = 0; srand( (unsigned int)time( NULL ) ); for( cnt = 0; 10 > cnt; cnt++ ) { intArr[cnt] = rand(); printf( "%x\r\n", intArr[cnt] ); snprintf( strArr[cnt], 9, "%x", intArr[cnt] ); printf( "%s\r\n", strArr[cnt] ); num = strtol( strArr[cnt], NULL, 16 ); printf( "%x\r\n", num ); } return( rtnCod ); }
#include <stdio.h> #include <sys/stat.h> //#include <time.h> #include <stdlib.h> int main( void ) { int rtnCod = 0; int cnt = 0; int num = 0; int bBuf = 0; int eBuf = 0; int fSize = 0; FILE* INFO = NULL; struct stat st; /* for stat() */ char *inBuf; /* メモリ作業領域 */ char fileName[8] = "./a.gem"; char word[9] = ""; stat( fileName, &st ); fSize = st.st_size; inBuf = (char*)malloc( fSize ); INFO = fopen( fileName, "r"); fread( inBuf, sizeof(char), fSize, INFO ); fclose( INFO ); // printf( "%s\n--end--\n", inBuf ); for( cnt = 0; fSize > cnt; cnt++ ) { if( ' ' == inBuf[cnt] ) { eBuf = cnt + 1; snprintf( word, eBuf - bBuf, "%s", &(inBuf[bBuf]) ); bBuf = cnt + 1; num = strtol( word, NULL, 16 ); printf( "%x\n", num ); } } free( inBuf ); return( rtnCod ); }
int delta = START_CUE_POS; int dOffset = setX(GRID_H * INTERVAL); int note = ZERO; int len = ZERO; int left = ZERO; int right = ZERO; for( 時点数 ) { barData取得 for( 各パート: cnt_beg, cnt_end ) { note = getNoteM( barData, cnt_beg ); if( ONあり ) { if( ZERO != offRsv[cnt_beg] ) { left = getX(offRsv[cnt_beg]); len = delta - left; if( tgt == cnt_beg ) { len += dOffset; } offRsv[cnt_beg] += setL(len); vc_funcs_barList[cnt_beg].insert( offRsv[cnt_beg] ); vc_funcs_barList[ALL_PART].insert( offRsv[cnt_beg] ); offRsv[cnt_beg] = ZERO; } if( noteが範囲内 ) { offRsv[cnt_beg] = setX(delta) + key2Y((u1)(note)) + setK(cnt_beg); if( tgtPart ) { offRsv[cnt_beg] += dOffset; } } } else { if( (ZERO == note) && (ZERO != offRsv[cnt_beg]) ) { left = getX(offRsv[cnt_beg]); len = delta - left; if( tgt == cnt_beg ) { len += dOffset; } offRsv[cnt_beg] += setL(len); vc_funcs_barList[cnt_beg].insert( offRsv[cnt_beg] ); vc_funcs_barList[ALL_PART].insert( offRsv[cnt_beg] ); offRsv[cnt_beg] = ZERO; } } } delta += GRID_H; }
//int delta = START_CUE_POS; //int dOffset = setX(GRID_H * INTERVAL); //int note = ZERO; //int len = ZERO; int left = ZERO; //int right = ZERO; int ePos = ZERO; int cPos = START_CUE_POS; int offset = INTERVAL * GRID_H; ePos = 最終位置 for( ; ePos > cPos; cPos += GRID_H ) { for( 各パート: cnt_beg, cnt_end ) { sPos = cPos; if( tgt == cnt_beg ) { sPos += offset; } lower = lower_bound(sPos); if( end == lower ) { continue; } note = getNote( *lower ); left = getX( *lower ); right = left + getL( *lower ); if( sPos == left ) { ON予約 } else( lとrの間 ) { N予約 }
import torch # for pytorch # from torch.autograd import Variable # for Variable # X = torch.randn( 4, 4, 4 ) prevX = Variable(X[-1:, :, :].data, requires_grad=False) #print(X) #print("="*80) #print(prevX) #prevX = None X = torch.randn( 4, 4, 4 ) Xm1 = [] #print( Xm1 ) Xm1.append(prevX if prevX is not None else X[:1, :, :] * 0) if prevX is not None: # Xm2 = prevX Xm2 = torch.cat((prevX, X[:-1, :, :]), 0) else: # Xm2 = torch.tensor(X[:1, :, :] * 0) Xm2 = torch.cat((X[:1, :, :] * 0, X[:-1, :, :]), 0) #print( Xm1 ) #print( Xm2 ) if len(X) > 1: Xm1.append(X[:-1, :, :]) # Xm2 = torch.cat((Xm2,X[:-1, :, :])) #print( Xm1 ) Xm1 = torch.cat(Xm1, 0) #print( Xm1 ) #print( Xm2 ) source = torch.cat([X, Xm1], 2) source2 = torch.cat((X, Xm2), dim=2) #print( source ) #print("="*80) #print( source2 ) #l = [X, Xm1] #t = (X, Xm1) #print(l) #print(t) #print(type(l)) #print(type(t))
■頻度ログ残し 生成したらID払出し(元種別番号+種別番号+セット番号+Index) フラグとともに保持しておき 対位系のときにIDも送信 IDをログに残す ■中断再開とColab連続稼働 https://qiita.com/iZuno-K/items/453cbc023a477359f272 ■数を絞って実現性証明 HHC ■手動でFP16 https://qiita.com/arutema47/items/d9e097f00b0b4934d07a 01G g1→gs1 11G 21G 31G 0DG 1DG 2DG 3DG 4DG D1G D2G D3G D4G learn sc1 sc2 sc3 sc4 scd t1d t2d t3d t4d t1d t2d t3d t4d input random g1 gs1_8 gs2_s gs3_s random time1 time2 time3 time4 dr dr dr dr output1 g1 gs1 gs2 gs3 gs4 dr dr dr dr dr time1 time2 time3 time4 output2 source1 source2 動作 自動 自動 自動 自動 自動 自動 手動 手動 手動 手動 手動 手動 手動 手動 切分け 1g - 2g 3g 4g dg s + 8bit s + 8bit*2 s + 8bit*3 s + 8bit*4
https://colab.research.google.com/drive/19icmsmrvXL3Ozv4UylAKgiHS5Lm89NVi#scrollTo=6V9nyBt2N1QI
#!/bin/bash lNum=0 cNum=0 strBuf=`cat $1` while read line do lNum=$(expr $lNum + 1) CS=`echo $line | sed -e 's@[^ ]@@g'` cNum=${#CS} echo $lNum : $cNum done << END cat $strBuf END echo $lNum