def get_FFMpeg_Paths(): '''################### file path ###################''' PROJECT_ROOT = cons_27_6_1.FPath.PROJECT_ROOT.value # PROJECT_ROOT = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research\\28_Physics\\1_\\_17" dname_Folder_Data = "data.27_6_1" dname_Images = "images" dname_Images_PNG = "images_20180220_140814" session_Label = "6_1.test-1" tlabel = libs.get_TimeLabel_Now() dpath_Out = "%s\\%s" % (PROJECT_ROOT, dname_Folder_Data) fpath_Full = "%s\\image.%s.%s.png" % (dpath_Out, session_Label, tlabel) dpath_Full = "%s\\%s\\%s" % (dpath_Out, dname_Images, dname_Images_PNG) fpath_Glob = "%s\\*(*).png" % (dpath_Full) # dpath_In = "%s" + "\\%s" + "\\%s" \ # + "%s" \ dpath_In = "%s\\%s\\%s" \ % (PROJECT_ROOT, dname_Folder_Data, dname_Images) dpath_In = "%s\\%s" % (dpath_In, dname_Images_PNG) # dpath_In = "%s\\%s\\%s" \ # + "%s" \ # % (PROJECT_ROOT, dname_Folder_Data, dname_Images, dname_Images_PNG) # + "\\images\\images_20180220_141141" fpath_In_FFMpeg = "%s\\image.%%03d.png" % (dpath_In) # fpath_In = "%s\\image.%03d.png" % (dpath_In) fpath_Out_FFMpeg = "%s\\movie.%s.mp4" % (dpath_In, libs.get_TimeLabel_Now()) # dpath_Out = "%s\\data.27_6_1" % (PROJECT_ROOT) ### fpath full # dname_Images_PNG = "images_20180220_140223" # dname_Images_PNG = "images_20180220_141101" # dpath_Full = "%s\\images_20180220_141141" % (dpath_Out) # dpath_Full = "%s\\%s\\images_20180220_141141" % (dpath_Out, dname_Images) # dpath_In = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research" \ # + "\\28_Physics\\1_\\_17\\data_1_17.1" \ '''################### return ###################''' return dpath_Full, fpath_Glob, fpath_In_FFMpeg, fpath_Out_FFMpeg
def test_2(): #from : C:\WORKS_2\WS\WS_Others\JVEMV6\34\libs\labs.py a = 1 s1 = [np.sin(x) for x in np.arange(-np.pi, np.pi, np.pi / 360)] s2 = [np.sin(x + a) for x in np.arange(-np.pi, np.pi, np.pi / 360)] '''################### file path ###################''' dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\prog\\D-7\\2_2\\VIRTUAL\\Admin_Projects\\others\\VX7GLZ\\28_physics\\1_\\_16" ### fpath full fpath_Full = "%s\\tmp.%s.a=%.1f.png" % (dpath_Out, libs.get_TimeLabel_Now(), a) '''################### plot ###################''' plt.plot(s1, s2) plt.savefig(fpath_Full) print() print("[%s:%d] file saved => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fpath_Full ), file=sys.stderr)
def test_6(): '''################### params ###################''' # x = -1; y = 1 x = 1; y = 1 x_, y_ = _test_6__Params(x, y) # x_, y_ = _test_6__Params() z = list(zip(x_, y_)) dpath_Images = "C:\\WORKS_2\\WS\\WS_Others\\free" \ + "\\VX7GLZ_science-research\\27_math" \ + "\\27_6_plot\\_1\\data.27_6_1\\images" file_Label = "6_1.test_6" lbl_Plot_Title = "Rotate (x = %s / y = %s)" % (x, y) '''################### gen : png files ###################''' _clearFigure = False xlim_Start = -5; xlim_End = 5 ylim_Start = -5; ylim_End = 5 dpath_Images_Out, tlabel = \ libs_VX7GLZ.gen_PNGFiles_from_Listof_Points__V2 \ (z, dpath_Images, file_Label, lbl_Plot_Title , xlim_Start, xlim_End , ylim_Start, ylim_End , clearFigure = _clearFigure) # (z, dpath_Images, file_Label, lbl_Plot_Title, clearFigure = _clearFigure) # libs_VX7GLZ.gen_PNGFiles_from_Listof_Points \ # (z, dpath_Images, file_Label, lbl_Plot_Title) # _test_5_Generate_PNGFiles \ '''################### gen : video ###################''' # dpath_Images_Out = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research\\27_math\\27_6_plot\\_1\\data.27_6_1\\images\\images_20180221_152007" fpath_Glob = "%s\\*(*).png" % (dpath_Images_Out) # fpath_Glob = "%s\\*.(*).png" % (dpath_Images_Out) # fpath_Glob = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research\\27_math\\27_6_plot\\_1\\data.27_6_1\\images\\images_20180221_152007\\*.(*).png" # fpath_Glob = dpath_Images_Out fpath_In_FFMpeg = "%s\\image.%%03d.png" % (dpath_Images_Out) # fpath_In_FFMpeg = "%s\\image.%%03d.png" % (fpath_Glob) tlabel2 = libs.get_TimeLabel_Now() fpath_Out_FFMpeg = "%s\\movie.%s.%s.mp4" % (dpath_Images_Out, tlabel, tlabel2) # fpath_Out_FFMpeg = "%s\\movie.%s.mp4" % (fpath_Glob, tlabel) libs_VX7GLZ.build_Video_From_PNGFiles__V2 \ (fpath_Glob, fpath_In_FFMpeg, fpath_Out_FFMpeg)
def test_6(): '''################### vars ###################''' tlabel = libs.get_TimeLabel_Now() dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\free" \ + "\\VX7GLZ_science-research\\28_Physics\\1_\\_17" \ + "\\images" '''################### file path ###################''' # dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\prog\\D-7\\2_2\\VIRTUAL\\Admin_Projects\\others\\VX7GLZ\\28_physics\\1_\\_16" ### fpath full session_Label = "1-17-2.test-5" fpath_Full = "%s\\image.%s.%s.png" % (dpath_Out, session_Label, tlabel) x = np.arange(0.0, 2, 0.01) y1 = np.sin(2*np.pi*x) y2 = 1.2*np.sin(4*np.pi*x) y3 = 1.2*np.sin(8*np.pi*x) fig, to_Axes = plt.subplots(5, 1, sharex=True) # fig, (ax1, ax2, ax3, ax4, ax5) = plt.subplots(5, 1, sharex=True) # fig, (ax1, ax2, ax3, ax4) = plt.subplots(4, 1, sharex=True) # fig, (ax1, ax2, ax3) = plt.subplots(3, 1, sharex=True) do_Params = { 0 : (0, y1, "0 / y1"), 1 : (0, y2, "0 / y2"), 2 : (0, y3, "0 / y3"), 3 : (y1, y2, "y1 / y2"), 4 : (y1, y3, "y1 / y3"), } cnt = 0 for ax in to_Axes: print(ax) print('') ax.fill_between(x, do_Params[cnt][0], do_Params[cnt][1]) ax.set_ylabel("%d / %s" % (cnt, do_Params[cnt][2])) ### increment cnt += 1 #/for ax in to_Axes: # print(to_Axes) plt.show()
def test_1(): '''################### vars ###################''' dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research\\28_Physics\\1_\\_15" #ref https://stackoverflow.com/questions/9622163/save-plot-to-image-file-instead-of-displaying-it-using-matplotlib answered Apr 28 '15 at 22:35 fig, ax = plt.subplots(nrows=1, ncols=1) x = np.arange(-100, 100, 0.1) # x = np.arange(0, 100, 0.1) a = np.arange(-2, 2, 0.5) # b = 2; d = 2 # a = 2; b = 2; d = 2 a = -2.0 b = 2 d = 2 # a = 2.0; b = 2; d = 2 y = [i**3 + a * i**2 + b * i + d for i in x] # ax.plot(x, y) # ax.show() # ### fpath full fpath_Full = "%s\\tmp.%s.a=%.1f.png" % (dpath_Out, libs.get_TimeLabel_Now(), a) # fpath_Full = "%s\\tmp.%s.png" % (dpath_Out, libs.get_TimeLabel_Now()) # # fig.savefig(fpath_Full) # time_Label = libs.get_TimeLabel_Now() # for num in a: # # y = [i**3 + a * i**2 + b * i + d for i in x] # # ax.plot(x,y) # # ### fpath full # fpath_Full = "%s\\tmp.%s.a=%s.png" % (dpath_Out, time_Label, str(num)) # # fig.savefig(fpath_Full) # # fig.savefig('tmp.20180217_134221.png') # # ### reset fig # fig, ax = plt.subplots( nrows=1, ncols=1 ) print() print("[%s:%d] file saved => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fpath_Full ), file=sys.stderr) plt.close(fig)
def test_4(): '''################### build : paths ###################''' '''################### file path ###################''' PROJECT_ROOT = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research\\28_Physics\\1_\\_17" dpath_Out = "%s\\data_1_17.1" % (PROJECT_ROOT) ### fpath full tlabel = libs.get_TimeLabel_Now() session_Label = "1_17.1.test-3" fpath_Full = "%s\\image.%s.%s.png" % (dpath_Out, session_Label, tlabel) dname_Images = "images" dname_Images_PNG = "images_20180220_140223" # dname_Images_PNG = "images_20180220_141101" # dpath_Full = "%s\\images_20180220_141141" % (dpath_Out) dpath_Full = "%s\\%s\\%s" % (dpath_Out, dname_Images, dname_Images_PNG) # dpath_Full = "%s\\%s\\images_20180220_141141" % (dpath_Out, dname_Images) fpath_Glob = "%s\\*(*).png" % (dpath_Full) dpath_In = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research" \ + "\\28_Physics\\1_\\_17\\data_1_17.1" \ + "\\images\\%s" % (dname_Images_PNG) # + "\\images\\images_20180220_141141" fpath_In_FFMpeg = "%s\\image.%%03d.png" % (dpath_In) # fpath_In = "%s\\image.%03d.png" % (dpath_In) fpath_Out_FFMpeg = "%s\\movie.%s.mp4" % (dpath_In, libs.get_TimeLabel_Now()) '''################### build : video ###################''' libs_VX7GLZ.build_Video_From_PNGFiles \ (dpath_Full, fpath_Glob, fpath_In_FFMpeg, fpath_Out_FFMpeg)
def test_4(): '''################### vars ###################''' tlabel = libs.get_TimeLabel_Now() dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\free" \ + "\\VX7GLZ_science-research\\28_Physics\\1_\\_17" \ + "\\images" '''################### file path ###################''' # dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\prog\\D-7\\2_2\\VIRTUAL\\Admin_Projects\\others\\VX7GLZ\\28_physics\\1_\\_16" ### fpath full session_Label = "1-17-2" fpath_Full = "%s\\image.%s.%s.png" % (dpath_Out, session_Label, tlabel) '''################### ops ###################''' #ref https://stackoverflow.com/questions/30209187/matplotlib-chart-area-vs-plot-area answered May 13 '15 at 23:00 x1 = np.random.randint(-5, 5, 50) x2 = np.random.randn(20) fig = plt.figure(figsize=(8,6)) # sets the window to 8 x 6 inches # left, bottom, width, height (range 0 to 1) # so think of width and height as a percentage of your window size big_ax = fig.add_axes([0.1, 0.1, 0.8, 0.8]) small_ax = fig.add_axes([0.52, 0.15, 0.3, 0.3]) # left, bottom, width, height (range 0 to 1) big_ax.fill_between(np.arange(len(x1)), x1, color='blue', alpha=0.3) # big_ax.fill_between(np.arange(len(x1)), x1, color='green', alpha=0.3) small_ax.stem(x2) plt.setp(small_ax.get_yticklabels(), visible=False) plt.setp(small_ax.get_xticklabels(), visible=False) # plt.show() fig.savefig(fpath_Full) # plt.savefig(fpath_Full) plt.close(fig) print() print("[%s:%d] file saved : %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fpath_Full ), file=sys.stderr)
def test_5_3(): '''################### params ###################''' x_, y_ = _test_5__Params() z = list(zip(x_, y_)) dpath_Images = "C:\\WORKS_2\\WS\\WS_Others\\free" \ + "\\VX7GLZ_science-research\\27_math" \ + "\\27_6_plot\\_1\\data.27_6_1\\images" file_Label = "6_1.test-5-3" lbl_Plot_Title = "Rotate matrix" '''################### gen : png files ###################''' dpath_Images_Out, tlabel = \ libs_VX7GLZ.gen_PNGFiles_from_Listof_Points \ (z, dpath_Images, file_Label, lbl_Plot_Title) # _test_5_Generate_PNGFiles \ '''################### gen : video ###################''' # dpath_Images_Out = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research\\27_math\\27_6_plot\\_1\\data.27_6_1\\images\\images_20180221_152007" fpath_Glob = "%s\\*(*).png" % (dpath_Images_Out) # fpath_Glob = "%s\\*.(*).png" % (dpath_Images_Out) # fpath_Glob = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research\\27_math\\27_6_plot\\_1\\data.27_6_1\\images\\images_20180221_152007\\*.(*).png" # fpath_Glob = dpath_Images_Out fpath_In_FFMpeg = "%s\\image.%%03d.png" % (dpath_Images_Out) # fpath_In_FFMpeg = "%s\\image.%%03d.png" % (fpath_Glob) tlabel2 = libs.get_TimeLabel_Now() fpath_Out_FFMpeg = "%s\\movie.%s.%s.mp4" % (dpath_Images_Out, tlabel, tlabel2) # fpath_Out_FFMpeg = "%s\\movie.%s.mp4" % (fpath_Glob, tlabel) libs_VX7GLZ.build_Video_From_PNGFiles__V2 \ (fpath_Glob, fpath_In_FFMpeg, fpath_Out_FFMpeg)
def test_1(): '''################### file path ###################''' PROJECT_ROOT = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research\\28_Physics\\1_\\_17" dpath_Out = "%s\\data_1_17.1" % (PROJECT_ROOT) ### fpath full tlabel = libs.get_TimeLabel_Now() session_Label = "1_17.1" fpath_Full = "%s\\image.%s.%s.png" % (dpath_Out, session_Label, tlabel) '''################### ops ###################''' x = np.linspace(0, np.pi * 2, 100) # x = np.linspace(0, np.pi, 1000) y = np.sin(x) # graph : settings plt.ylim(-2, 2) plt.xlim(0, np.pi * 2) plt.grid(b=None, which='major', axis='both') plt.xticks(np.arange(0, np.pi * 2, np.pi / 4)) plt.yticks(np.arange(-2, 2, 0.5)) # plt.yticks([-2,-1,1,2]) # plt.xticks([-2,-1,1,2]) plt.xlabel("x") plt.ylabel("sin(x)") plt.title("x ~ sin(x)\n%s" % (os.path.basename(fpath_Full))) # plot plt.plot(x, y) plt.savefig(fpath_Full) plt.show()
def test_2(): '''################### file path ###################''' dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\prog\\D-7\\2_2\\VIRTUAL\\Admin_Projects\\others\\VX7GLZ\\28_physics\\1_\\_16" ### fpath full fpath_Full = "%s\\tmp.%s.png" % (dpath_Out, libs.get_TimeLabel_Now()) '''################### ops ###################''' # print(cv2.__version__) fname_In = "image.1-17-2.20180219_093551.png" img = cv2.imread(fname_In) print() print("[%s:%d] img => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , img ), file=sys.stderr)
def test_3(): '''################### file path ###################''' tlabel = libs.get_TimeLabel_Now() dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\free" \ + "\\VX7GLZ_science-research\\28_Physics\\1_\\_17\\" \ + "images\\images_%s" % tlabel # ### make dir # os.makedirs(dpath_Out) # ### fpath full # fpath_Full = "%s\\tmp.%s.png" % (dpath_Out, ) '''################### ops ###################''' x = [1] y = [0] # fig = plt.figure() # ax = fig.gca() # ax.set_xticks(np.arange(-1, 1, 0.1)) # ax.set_yticks(np.arange(-1, 1, 0.1)) plt.grid(b=None, which='major', axis='both') #ref https://stackoverflow.com/questions/19390895/matplotlib-plot-with-variable-line-width answered Nov 29 '14 at 17:42 plt.scatter(x, y, s=20) # plt.plot(x, y, linewidth = 10) # plt.scatter(x, y, s = 1) # plt.plot(x, y, linewidth = 1) # plt.plot(x, y) # plt.set_xticks(np.arange(-1, 1, 0.1)) # plt.set_yticks(np.arange(-1, 1, 0.1)) plt.show()
def test_7(): '''################### vars ###################''' tlabel = libs.get_TimeLabel_Now() dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\free" \ + "\\VX7GLZ_science-research\\28_Physics\\1_\\_17" \ + "\\images\\images_%s" % (tlabel) ### make dir #ref https://www.tutorialspoint.com/python/os_mkdir.htm os.makedirs(dpath_Out) '''################### file path ###################''' # dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\prog\\D-7\\2_2\\VIRTUAL\\Admin_Projects\\others\\VX7GLZ\\28_physics\\1_\\_16" ### fpath full session_Label = "1-17-2.test-7" # fpath_Full = "%s\\image.%s.%s.png" % (dpath_Out, session_Label, tlabel) tick = 0.01 # tick = np.pi / 6 rng_X_End = np.pi * (1/2) x = np.arange(0.0, rng_X_End, tick) # x = np.arange(0.0, 2 * np.pi, tick) # x = np.arange(0.0, 2, 0.01) y1 = np.sin(2*np.pi*x) y2 = 1.2*np.sin(4*np.pi*x) y3 = 1.2*np.sin(8*np.pi*x) cnt = 0 tick = np.pi / 12 # tick = np.pi / 36 rng_Index_End = np.pi * 4 for index in np.arange(0, rng_Index_End, tick): # for index in np.arange(0, np.pi, tick): # for index in np.arange(0, np.pi, tick): fig, (ax) = plt.subplots(1, 1, sharex=True) y = 1.2 * np.sin(4 * np.pi * x + index) ax.fill_between(x, y1, y) ax.set_ylabel("sin(2pi*x) / 1.2*sin(4pi*x)") '''################### save image ###################''' fpath_Full = "%s\\image.%s.%s.(%02d).index-%.03f.png" \ % (dpath_Out, session_Label, tlabel, cnt, index) plt.title("1.2 * sin(4pi * x + %.03f" % (index)) plt.savefig(fpath_Full) plt.close(fig) # print() # print("[%s:%d] fig saved, closed => %s" % \ # (os.path.basename(libs.thisfile()), libs.linenum() # , fpath_Full # ), file=sys.stderr) ### increment cnt += 1
def test_3(): '''################### file path ###################''' PROJECT_ROOT = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research\\28_Physics\\1_\\_17" dpath_Out = "%s\\data_1_17.1" % (PROJECT_ROOT) ### fpath full tlabel = libs.get_TimeLabel_Now() session_Label = "1_17.1.test-3" # fpath_Full = "%s\\image.%s.%s.png" % (dpath_Out, session_Label, tlabel) '''################### test : video ###################''' '''################### get : file list ###################''' dname_Images = "images" # dpath_Full = "%s\\images_20180220_141141" % (dpath_Out) dpath_Full = "%s\\%s\\images_20180220_141141" % (dpath_Out, dname_Images) ### validate if not os.path.isdir(dpath_Full): #if os.path.isdir(dpath_Full) print() print("[%s:%d] dir NOT exist => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , dpath_Full ), file=sys.stderr) return #/if os.path.isdir(dpath_Full) aa fpath_Glob = "%s\\*(*).png" % (dpath_Full) # fpath_Glob = "%s\\*.png" % (dpath_Full) #ref glob https://stackoverflow.com/questions/14798220/how-can-i-search-sub-folders-using-glob-glob-module-in-python answered Feb 10 '13 at 13:31 lo_Files = glob.glob(fpath_Glob) ### validate if len(lo_Files) < 1: #if len(lo_Files) <+ 1 print() print("[%s:%d] len(lo_Files) => less than 1" % \ (os.path.basename(libs.thisfile()), libs.linenum() , len(lo_Files), fpath_Glob ), file=sys.stderr) return else: print() print("[%s:%d] len(lo_Files) => %d" % \ (os.path.basename(libs.thisfile()), libs.linenum() , len(lo_Files) ), file=sys.stderr) #/if len(lo_Files) < 1 '''################### sort : list ###################''' #ref https://www.programiz.com/python-programming/methods/list/sort lo_Files.sort() # for item in lo_Files: # # print("[%s:%d] item => %s" % \ # (os.path.basename(libs.thisfile()), libs.linenum() # , item # ), file=sys.stderr) # # print() #/for item in lo_Files: '''################### copy ###################''' cnt = 0 lo_CopiedFiles = [] for item in lo_Files: dpath = os.path.dirname(item) fpath_Dst = "%s\\image.%03d.png" % (dpath, cnt) copyfile(item, fpath_Dst) # append new file path lo_CopiedFiles.append(fpath_Dst) print() print("[%s:%d] file copied : %s => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , item, fpath_Dst ), file=sys.stderr) # increment cnt += 1 #/for item in lo_Files: '''################### video : generate ###################''' dpath_In = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research" \ + "\\28_Physics\\1_\\_17\\data_1_17.1" \ + "\\images\\images_20180220_141141" fpath_In = "%s\\image.%%03d.png" % (dpath_In) # fpath_In = "%s\\image.%03d.png" % (dpath_In) fpath_Out = "%s\\movie.%s.mp4" % (dpath_In, libs.get_TimeLabel_Now()) cmd = "ffmpeg -f image2 -r 2 -i " \ + "%s -vcodec mpeg4 -y %s" % (fpath_In, fpath_Out) # cmd = "ffmpeg -f image2 -r 2 -i image.%03d.png -vcodec mpeg4 -y movie.mp4" # execute os.system(cmd) print() print("[%s:%d] executing command => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , cmd ), file=sys.stderr) '''################### delete : copied files ###################''' while (not os.path.isfile(fpath_Out)): pass #/while (not os.path.isfile(fpath_Out)) : print() print("[%s:%d] copied files ==> deleting..." % \ (os.path.basename(libs.thisfile()), libs.linenum() ), file=sys.stderr) # remove files for item in lo_CopiedFiles: if os.path.isfile(item): #if os.path.isfile(item) res = os.remove(item) print() print("[%s:%d] remove file : result => %s (%s)" % \ (os.path.basename(libs.thisfile()), libs.linenum() , res, item ), file=sys.stderr) #/if os.path.isfile(item) print() print("[%s:%d] copied files ==> deleted" % \ (os.path.basename(libs.thisfile()), libs.linenum() ), file=sys.stderr)
def test_3(): '''################### vars ###################''' tlabel = libs.get_TimeLabel_Now() '''################### dir ###################''' dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\free" \ + "\\VX7GLZ_science-research\\28_Physics\\1_\\_17" \ + "\\images\\\images_%s" % (tlabel) ### make dir #ref https://www.tutorialspoint.com/python/os_mkdir.htm os.makedirs(dpath_Out) print() print("[%s:%d] dpath_Out => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , dpath_Out ), file=sys.stderr) #from : C:\WORKS_2\WS\WS_Others\JVEMV6\34\libs\labs.py # for a in np.arange(1,2): # for a in np.arange(1,10, 0.5): # for a in np.arange(1,2, 0.1): # for a in np.arange(1, 5, 0.1): maxnum = 30 # tick = np.pi / 60 tick = np.pi / 30 ### counter cnt = 1 for a in np.arange(0, np.pi * 4, tick): # for a in np.arange(0, np.pi * 2, tick): # for a in np.arange(0, maxnum, tick): # for a in np.arange(0, 10, 0.1): # a = 1 # s1 = [np.sin(x + a) for x in np.arange(-np.pi, np.pi, np.pi / 360)] s1 = [np.sin(x) for x in np.arange(-np.pi, np.pi, np.pi / 360)] # s1 = [np.sin(x * a) for x in np.arange(-np.pi, np.pi, np.pi / 360)] s2 = [np.cos(x * a) for x in np.arange(-np.pi, np.pi, np.pi / 360)] # s2 = [np.cos(x) for x in np.arange(-np.pi, np.pi, np.pi / 360)] # s2 = [np.cos(x + a) for x in np.arange(-np.pi, np.pi, np.pi / 360)] # s3 = [np.sin(x + a) for x in np.arange(-np.pi, np.pi, np.pi / 360)] # s4 = [np.cos(x) for x in np.arange(-np.pi, np.pi, np.pi / 360)] # s2 = [np.sin(x) for x in np.arange(-np.pi, np.pi, np.pi / 360)] # s2 = [np.sin(x + a) for x in np.arange(-np.pi, np.pi, np.pi / 360)] '''################### file path ###################''' # dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\prog\\D-7\\2_2\\VIRTUAL\\Admin_Projects\\others\\VX7GLZ\\28_physics\\1_\\_16" ### fpath full fpath_Full = "%s\\tmp.%s.(%02d).a=%.3f.png" % (dpath_Out, tlabel, cnt, a) # fpath_Full = "%s\\tmp.%s.a=%.3f.png" % (dpath_Out, libs.get_TimeLabel_Now(), a) # fpath_Full = "%s\\tmp.%s.a=%.1f.png" % (dpath_Out, libs.get_TimeLabel_Now(), a) # fpath_Full = "%s\\tmp.%s.a=%.1f.png" % (dpath_Out, libs.get_TimeLabel_Now(), a) ### increment cnt += 1 '''################### gca ###################''' fig = plt.figure() ax = fig.gca() ax.set_xticks(np.arange(-1, 1, 0.1)) ax.set_yticks(np.arange(-1, 1, 0.1)) '''################### plot ###################''' plt.plot(s1, s2) # plt.plot(s3, s4) ### ratio #ref https://matplotlib.org/examples/pylab_examples/equal_aspect_ratio.html #ref https://stackoverflow.com/questions/7965743/how-can-i-set-the-aspect-ratio-in-matplotlib # plt.axes().set_aspect('equal', 'datalim') plt.axes().set_aspect('equal') # plt.axes().set_aspect(2) # plt.set_aspect(2) #ref https://stackoverflow.com/questions/8209568/how-do-i-draw-a-grid-onto-a-plot-in-python answered Nov 21 '11 at 11:00 # fig = plt.figure() # ax = fig.gca() # ax.set_xticks(np.arange(-1, 1, 0.1)) # ax.set_yticks(np.arange(-1, 1, 0.1)) plt.grid(b=None, which='major', axis='both') plt.xlabel("sin(x)") # plt.xlabel("sin(x + %.3f)" % a) plt.ylabel("cos(x * %.3f)" % a) # plt.ylabel("cos(x + %.3f)" % a) # plt.ylabel("cos(x)") plt.title("a = %.3f" % a) # plt.show() plt.savefig(fpath_Full) ### close plt.close(fig)
def test_5(): '''################### params ###################''' x_, y_ = _test_5__Params() z = list(zip(x_, y_)) '''################### graph : settings ###################''' # xlim plt.xlim(-2,2) plt.ylim(-2,2) plt.grid(b=None, which='major', axis='both') # plt.scatter([z[0][0]], [z[0][1]], s = 60) # # plt.scatter([z[0][0]], [z[0][1]], linewidth = 30) # # plt.show() # # print() # # print("[%s:%d] x_[0] => %s" % \ # print("[%s:%d] x_ => %s" % \ # (os.path.basename(libs.thisfile()), libs.linenum() # , x_ # ), file=sys.stderr) # # print() # # print("[%s:%d] z[0] => %s" % \ # # (os.path.basename(libs.thisfile()), libs.linenum() # # , z[0] # # ), file=sys.stderr) # # print() # # print("[%s:%d] r_[0] => %s" % \ # # (os.path.basename(libs.thisfile()), libs.linenum() # # , r_[0] # # ), file=sys.stderr) '''################### plot ###################''' # plt.scatter([r_[0][0]], [r_[0][1]], linewidth = 30) # # plt.plot([r_[0][0]], [r_[0][1]], linewidth = 30) # # plt.plot(r_[0][0], r_[0][1], linewidth = 20) # # plt.show() # #debug # return # print() # print("[%s:%d] r_ returned => %d" % \ # (os.path.basename(libs.thisfile()), libs.linenum() # , len(r_) # ), file=sys.stderr) # # #debug # return # step_Theta = np.pi / 6 # # rng_Theta = np.arange(0, np.pi * 2 + step_Theta, step_Theta) # # # x = np.sin(rng_Theta) # # y = np.cos(rng_Theta) # # r = Matrix([ # [1], # [0] # # ]) # # rot = Matrix([ # [np.cos(rng_Theta), - np.sin(rng_Theta)], # [np.sin(rng_Theta), np.cos(rng_Theta)]] # ) # # prod = rot * r # # print() # print("[%s:%d] len(rot) => %d" % \ # (os.path.basename(libs.thisfile()), libs.linenum() # , len(rot) # ), file=sys.stderr) # print("[%s:%d] len(prod) => %d" % \ # (os.path.basename(libs.thisfile()), libs.linenum() # , len(prod) # ), file=sys.stderr) # # #debug # return # cnt = 1 tlabel = libs.get_TimeLabel_Now() # dir dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\free" \ + "\\VX7GLZ_science-research\\27_math\\27_6_plot\\_1"
def test_1(): '''################### get : args ###################''' '''################### file path ###################''' #_20190917_090405:tmp #C:\WORKS_2\WS\WS_Others.Art\JVEMV6\46_art\11_guitar dpath_Text = "C:\\WORKS_2\\WS\\WS_Others.Art\\JVEMV6\\46_art\\11_guitar" fname_Text = "memo_guitar.txt" #_20190917_094525:tmp fname_Text_Replaced = "memo_guitar.(replaced).(%s).txt" % libs.get_TimeLabel_Now() fpath_Text = os.path.join(dpath_Text, fname_Text) # validate if not os.path.isfile(fpath_Text) : #if not os.path.isfile(fpath_CSV) print() print("[%s:%d] text file NOT exist : %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fpath_Text ), file=sys.stderr) return #/if not os.path.isfile(fpath_CSV) '''################### file : open ###################''' f_in_Text = open(fpath_Text, "r") '''################### read file content ###################''' data = f_in_Text.read() print("[%s:%d] len(data) = %d" % \ (os.path.basename(libs.thisfile()), libs.linenum() , len(data) ), file=sys.stderr) '''################### file : close ###################''' f_in_Text.close() '''################### step : A : 1 replace ###################''' #_20190917_090843:tmp #ref https://www.tutorialspoint.com/python/python_reg_expressions.htm # \|\| \r\n #ref https://uxmilk.jp/8662 txt_Replaced = re.sub(r"\|\| ", "\r", data) # txt_Replaced = re.sub(r"\|\| ", "\r\n", data) print("[%s:%d] txt_Replaced => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , txt_Replaced ), file=sys.stderr) #ref https://stackoverflow.com/questions/5984633/python-re-sub-group-number-after-number lo_Replaces = [ # ["(s\.\d+):", "$1\t"] ["(s\.\d+):", "\g<1>\t"] , ["\.N", "\t"] #, ["\.n", "\t"] # 20191009_102653 ==> working #, ["^(.+-\d\).n", "\g<1>\tn"] # 20191023_091457 ==> error 'unterminated subpattern at position 1' #, ["^(.+-\d\).n", "\g<1>\t.n"] # 20191024_111819 testing ==> error 'unterminated subpattern at position 1' #, ["^(.+-\d\).n", "\g<1>\t n"] # 20191024_111934 testing ==> error 'unterminated subpattern at position 1' #, ["^(.+-\d\).n", "\g<1>\t nnn"] # 20191024_112117 testing ==> error 'unterminated subpattern at position 1' #, ["^(.+-\d\).n", "\g<1>\t new"] # 20191024_112117 testing ==> error 'unterminated subpattern at position 1' #, ["^(.+-\d\).n", "\g<1>\tnew"] # 20191024_112231 testing ==> error 'unterminated subpattern at position 1' #, ["^(.+-\d).n", "\g<1>\t n"] # 20191024_112231 testing ==> working --> '(.+-\d\)' ~~> the second '\' omitted #, ["^(.+-\d).n", "\g<1>\tn"] # 20191024_112512 ==> working, but '.n' stays #, ["^(.+-\d)\.n", "\g<1>\tn"] # 20191024_112601 ==> working, but '.n' stays #, ["(.+-\d)\.n", "\g<1>\tn"] # 20191024_112907 ==> omit '^' ---> NO #, ["(et|f|st|ct)-(\d+)\.n", "\g<1>-\g<2>\tn"] # 20191024_112907 ==> working, '.n' converted to "\tn" #, ["(et|f|st|ct|m|ch|cp)-(\d+)\.n", "\g<1>-\g<2>\tn"] # 20191024_112907 ==> working, '.n' converted to "\tn" # 20191129_085145 , ["(et|f|st|ct|m|ch|cp|p|prev)-(\d+)\.n", "\g<1>-\g<2>\tn"] # ==> working, '.n' converted to "\tn" # 20200106_111814 #, ["(et|f|st|ct)-(\d+),([a-zA-Z])", "\g<1>-\g<2>\t\g<3>"] # 20191024_112907 ==> working, converted #, ["(et|f|st|ct)-(\d+),([a-zA-Z]+),", "\g<1>-\g<2>\t\g<3>\t"] # 20191107_090118 ==> working , ["(et|f|st|ct)-(\d+),([a-zA-Z]{2,}),", "\g<1>-\g<2>\t\g<3>\t"] # 20191107_090411 , ["(prev),(s-)", "\g<1>\tprev\t\g<2>"] # 20200106_111924 #, ["(\d),rev", "\g<1>\trev"] , ["(\d),rev", "\g<1>\trev\t"] # 20191107_084308 , ["(\d),r,", "\g<1>\trev\t"] # 20191107_084217 , ["(\d);v", "\g<1>\tv"] , ["(\d),var", "\g<1>\tvar"] # 20191006_075953 , ["(-\d+),section", "\g<1>\tsection"] # 20191006_075953 , ["(-\d+),practice", "\g<1>\tpractice"] # 20191006_075953 , ["(-\d+),play", "\g<1>\tplay"] # 20191008_100412 , ["(-\d+),patt", "\g<1>\tpatt"] # 20191021_112614 , ["(\d),rec", "\g<1>\trec"] , ["(-\d+),memo", "\g<1>\tmemo\t"] # 20191126_110214 , ["s\.(\d+?)", "\g<1>"] , ["^(\d+?\t.+-\d+),", "\g<1>\t"] , ["(\d);var", "\g<1>\tvar"] , [",R=", "\tR="] , ["other,", "other\tother\t"] # 20191107_090715 , ["warm-up,", "warm-up\wu\t"] # 20191107_090715 , ["wu,", "warm-up\twu\t"] # 20191107_090715 , ["fs-(\d+),", "fs-\g<1>\tfs\t"] # 20191210_095020 ] for item in lo_Replaces: print("[%s:%d] item[0] = '%s', item[1] = '%s'" % \ (os.path.basename(libs.thisfile()), libs.linenum() , item[0], item[1] ), file=sys.stderr) #debug print("[%s:%d] txt_Replaced (before) = '%s'" % \ (os.path.basename(libs.thisfile()), libs.linenum() , txt_Replaced ), file=sys.stderr) txt_Replaced = re.sub(item[0], item[1], txt_Replaced) #debug print("[%s:%d] txt_Replaced (after) = '%s'" % \ (os.path.basename(libs.thisfile()), libs.linenum() , txt_Replaced ), file=sys.stderr) #/for item in lo_Replaces: # txt_Replaced = re.sub(r"\|\| ", "\r\n", data) print("[%s:%d] txt_Replaced => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , txt_Replaced ), file=sys.stderr) '''################### step : A : 2 clipboard ###################''' # #_20190917_094226:tmp # # command = 'echo ' + text.strip() + '| clip' # # command = 'echo ' + txt_Replaced.strip() + '| clip' # command = "echo \"" + txt_Replaced.strip() + "\" | clip" # os.system(command) # # print("[%s:%d] command => %s" % \ # (os.path.basename(libs.thisfile()), libs.linenum() # , command # ), file=sys.stderr) # # print("[%s:%d] text => to clipboard" % \ # (os.path.basename(libs.thisfile()), libs.linenum() # # ), file=sys.stderr) '''################### step : A : 3 to file ###################''' f_out_Text_Replaced = open(os.path.join(dpath_Text, fname_Text_Replaced), "w") f_out_Text_Replaced.write(txt_Replaced) # close f_out_Text_Replaced.close() print("[%s:%d] text => written : %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fname_Text_Replaced ), file=sys.stderr) '''################### report ###################''' '''################### message ###################''' print() print("[%s:%d] test_1 =======================" % \ (os.path.basename(libs.thisfile()), libs.linenum() ), file=sys.stderr)
def test_4(): '''################### plot ###################''' rng_X_Scalar = 4 rng_X_Start = - rng_X_Scalar * np.pi rng_X_End = rng_X_Scalar * np.pi x=np.linspace(rng_X_Start, rng_X_End, 1000) # x=np.linspace(-2 * np.pi, 2 * np.pi, 1000) y=np.sin(x) y2= [i**2 for i in y] fig = plt.figure() ax = fig.add_subplot(111) ax.plot(x,y,'b') ### sum ysum = y rng_Start = 2; rng_End = 10 # rng_Start = 2; rng_End = 6 for index in np.arange(rng_Start, rng_End): # for index in np.arange(2,4): # for index in np.arange(2,3): # for index in (2,2): # for index in (2, 3): # for index in (1,2): # for index in (1,2,3): # for index in (1,2,3,4): y_ = [i ** index for i in y] ysum = ysum + y_ # ysum = y_ # ysum += y_ ax.plot(x, ysum) print() print("[%s:%d] index => %d" % \ (os.path.basename(libs.thisfile()), libs.linenum() , index ), file=sys.stderr) #/for index in (1,2,3,4): # ax.plot(x,y2,'g') # ax.plot(x,y + y2,'r') # ax.plot(x,y,'b.') # y_pi = y/np.pi # unit = 0.25 # y_tick = np.arange(-0.5, 0.5+unit, unit) # '''################### label : y ###################''' #ref https://stackoverflow.com/questions/10729737/how-can-i-set-the-y-axis-in-radians-in-a-python-plot tickVal_Y = 1 # tickVal_X = 1 y_tick = np.arange(-2, rng_End + tickVal_Y, tickVal_Y) # x_tick = np.arange(-2, 2, 1) y_label = y_tick # y_label = [r"$" + format(r, ".2g")+ r"\pi$" for r in y_tick] ax.set_yticks(y_tick) # ax.set_yticks(y_tick * np.pi) ax.set_yticklabels(y_label, fontsize = 10) '''################### label : x ###################''' #ref https://stackoverflow.com/questions/10729737/how-can-i-set-the-y-axis-in-radians-in-a-python-plot tickVal_X = 0.5 # tickVal_X = 1 x_tick = np.arange(- rng_X_Scalar, rng_X_Scalar + tickVal_X, tickVal_X) # x_tick = np.arange(-2, 2 + tickVal_X, tickVal_X) # x_tick = np.arange(-2, 2, 1) x_label = [r"$" + format(r, ".2g")+ r"\pi$" for r in x_tick] ax.set_xticks(x_tick * np.pi) ax.set_xticklabels(x_label, fontsize = 10) # x_label = np.arange(-10 / np.pi, 10 / np.pi, np.pi / 2) # # x_label = np.arange(-np.pi * 3, np.pi * 3, np.pi / 2) # # x_label_pi = [r"$" + format(r, ".2g")+ r"\pi$" for r in x_label] # # ax.set_xticks(x_label) # # ax.set_xticklabels(x_label_pi, fontsize = 10) # # # x_label_pi = [r"$-\frac{\pi}{2}$", r"$-\frac{\pi}{4}$", r"$0$", r"$+\frac{\pi}{4}$", r"$+\frac{\pi}{2}$"] # # '''################### # label : y # ###################''' # y_label = [r"$-\frac{\pi}{2}$", r"$-\frac{\pi}{4}$", r"$0$", r"$+\frac{\pi}{4}$", r"$+\frac{\pi}{2}$"] # ax.set_yticks(y_tick*np.pi) # ax.set_yticklabels(y_label, fontsize=20) # # y_label2 = [r"$" + format(r, ".2g")+ r"\pi$" for r in y_tick] # ax2 = ax.twinx() # ax2.set_yticks(y_tick*np.pi) # ax2.set_yticklabels(y_label2, fontsize=20) fpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\free" \ + "\\VX7GLZ_science-research\\27_math\\27_6_plot\\_1" \ + "\\6_1.%s.png" % (libs.get_TimeLabel_Now()) print() print("[%s:%d] fpath_Out => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fpath_Out ), file=sys.stderr) '''################### title ###################''' plt.title("sin(x)^a : a = %02d ~ %02d\n%s" \ % (rng_Start, (rng_End - 1), os.path.basename(fpath_Out))) '''################### grid ###################''' plt.grid(b=None, which='major', axis='both') '''################### plot ###################''' # ax.savefig("%s\\6_1.%s.png" % (fpath_Out, libs.get_TimeLabel_Now())) plt.savefig(fpath_Out) # plt.savefig("%s\\6_1.%s.png" % (dpath_Out, libs.get_TimeLabel_Now())) plt.show()
def test_1(): '''################### get : args ###################''' '''################### file path ###################''' #_20190307_144837 dpath_CSV = "C:\\WORKS_2\\WS\\WS_Others.prog\\prog\\D-7\\2_2\\VIRTUAL\\Admin_Projects\\curr\\data\\csv_raw" if len(sys.argv) > 1: #if len(sys.argv) fname_CSV = sys.argv[1] else: #if len(sys.argv) fname_CSV = "44_5.1_10_rawdata.(EURJPY).(Period-D1).(NumOfUnits-2000)"\ + ".(Bars-ALL).20190308_083617.csv" # fname_CSV = "44_5.1_10_rawdata.(EURJPY).(Period-M15).(NumOfUnits-4500)"\ # + ".(Bars-ALL).20190214_095445.csv" #/if len(sys.argv) fpath_CSV = os.path.join(dpath_CSV, fname_CSV) # validate if not os.path.isfile(fpath_CSV): #if not os.path.isfile(fpath_CSV) print() print("[%s:%d] csv file NOT exist : %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() ), file=sys.stderr) return #/if not os.path.isfile(fpath_CSV) '''################### file : open ###################''' f_in_CSV = open(fpath_CSV, "r") '''################### read file content ###################''' data = f_in_CSV.readlines() print("[%s:%d] len(data) = %d" % \ (os.path.basename(libs.thisfile()), libs.linenum() , len(data) ), file=sys.stderr) '''################### file : close ###################''' f_in_CSV.close() '''################### op : renumbering ###################''' '''################### step : A : 1 prep ###################''' lo_New_CSV_Lines = [] cntOf_Lines = 1 lenOf_Lines = len(data) # file path #_20190307_144916 dpath_CSV_Dst = dpath_CSV # dpath_CSV_Dst = "C:\\WORKS_2\\WS\\WS_Others.prog\\prog\\D-7\\2_2\\VIRTUAL\\Admin_Projects\\curr\\data\\csv_raw" # E/J, H1 # build : fname # 44_5.1_10_rawdata.(EURJPY).(Period-D1).(NumOfUnits-2000).(Bars-ALL).20190308_083617.csv # tokens = fname_CSV.split(".") fname_CSV_Dst = fname_CSV.replace("Bars-ALL", "Bars-ALL-%s" % libs.get_TimeLabel_Now()) # fname_CSV_Dst = "44_5.1_10_rawdata.(EURJPY).(Period-H1).(NumOfUnits-4500)" # fname_CSV_Dst += ".(Bars-ALL-%s).20190307_144106.csv" % libs.get_TimeLabel_Now() # # E/J, M15 # fname_CSV_Dst = "44_5.1_10_rawdata.(EURJPY).(Period-M15).(NumOfUnits-4500)" # fname_CSV_Dst += ".(Bars-ALL-%s).20190214_095445" % libs.get_TimeLabel_Now() # fname_CSV_Dst += ".csv" # fname_CSV_Dst += ".(tmp-%s).csv" % libs.get_TimeLabel_Now() fpath_CSV_Dst = os.path.join(dpath_CSV_Dst, fname_CSV_Dst) '''################### step : A : 2.1 read : header ###################''' lo_New_CSV_Lines.append(data[0]) lo_New_CSV_Lines.append(data[1]) '''################### step : A : 2.2 read : body ###################''' # iteration for i in range(2, lenOf_Lines): # split tokens = data[i].split(";") # renumbering tokens[0] = str(cntOf_Lines) # tokens[0] = cntOf_Lines # counter cntOf_Lines += 1 # append lo_New_CSV_Lines.append(";".join(tokens)) #/for i in range(2, lenOf_Lines): #debug print() print("[%s:%d] lo_New_CSV_Lines[0] = %s, lo_New_CSV_Lines[-1] = %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , lo_New_CSV_Lines[0] , lo_New_CSV_Lines[-1] ), file=sys.stderr) #ccc # for line in data: # # tokens = line.split(";") # # # # #/for line in data: '''################### step : A : 3.1 file : open ###################''' f_out_CSV = open(fpath_CSV_Dst, "w") '''################### step : A : 3.2 file : write ###################''' f_out_CSV.write("".join(lo_New_CSV_Lines)) # f_out_CSV.write("\n".join(lo_New_CSV_Lines)) '''################### step : A : 3.3 file : close ###################''' f_out_CSV.close() #debug print() print("[%s:%d] file written ==> %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fpath_CSV_Dst ), file=sys.stderr) '''################### extract target tokesn from each line ###################''' '''################### report ###################''' '''################### message ###################''' print() print("[%s:%d] test_1 =======================" % \ (os.path.basename(libs.thisfile()), libs.linenum() ), file=sys.stderr)
def _test_5_Generate_PNGFiles \ (z, dpath_Images, file_Label, lbl_Plot_Title): # '''################### # graph : settings # ###################''' # # xlim # plt.xlim(-2,2) # plt.ylim(-2,2) # plt.grid(b=None, which='major', axis='both') '''################### paths and dirs ###################''' tlabel = libs.get_TimeLabel_Now() # dpath_Images = "C:\\WORKS_2\\WS\\WS_Others\\free" \ # + "\\VX7GLZ_science-research\\27_math" \ # + "\\27_6_plot\\_1\\data.27_6_1\\images" dpath_Images_Out = "%s\\images_%s" % (dpath_Images, tlabel) # dirs if not os.path.isdir(dpath_Images_Out) : os.makedirs(dpath_Images_Out) '''################### plot ###################''' cnt = 1 for loc in z : '''################### graph : settings ###################''' # xlim plt.xlim(-2,2) plt.ylim(-2,2) plt.grid(b=None, which='major', axis='both') fpath_Images_Out = "%s\\%s.%s.(%02d).png" \ % (dpath_Images_Out, file_Label, tlabel, cnt) # fpath_Images_Out = "%s\\6_1.%s.(%02d).png" \ print() print("[%s:%d] fpath_Images_Out => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fpath_Images_Out ), file=sys.stderr) '''################### title ###################''' # plt_Title = "rotate : (%02d) : x = %.4f / y = %.4f\n%s" \ plt_Title = "%s : (%02d) : x = %.4f / y = %.4f\n%s" \ % (lbl_Plot_Title, cnt, loc[0], loc[1], os.path.basename(fpath_Images_Out)) # % (cnt, loc[0], loc[1], os.path.basename(fpath_Images_Out)) plt.title(plt_Title) '''################### grid ###################''' # plt.grid(b=None, which='major', axis='both') '''################### plot ###################''' plt.scatter([loc[0]], [loc[1]], s = 60) # ax.savefig("%s\\6_1.%s.png" % (fpath_Out, libs.get_TimeLabel_Now())) plt.savefig(fpath_Images_Out) '''################### increment ###################''' cnt += 1 '''################### reset : figure ###################''' plt.clf() '''################### return ###################''' return dpath_Images_Out, tlabel
def dp_1_Trend_Down(\ _lo_LO_Lines, _lo_BDs_Tmp , _typeOf_DP , _index_start , numOf_Target_Bars = 4 ): #_20191211_130902:caller #_20191211_130909:head #_20191211_130914:wl:in-func '''################### step : 0 : 1 prep : unpack : lines ###################''' (lo_Lines_Log, lo_Lines_Dat, lo_Lines_Error) = _lo_LO_Lines '''################### step : 0 : 2 prep : vars ###################''' valOf_Ret = False '''################### step : 0 : 3 log ###################''' #_20191110_142858:caller # flg_commandline_ouput = SWITCH_COMMANDLINE_OUTPUT flg_commandline_ouput = cons_fx.Flags.SWITCH_COMMANDLINE_OUTPUT.value tmp_msg = "dp_1_Trend_Down ==> starting..." libfx_7.output_Log(os.path.basename(libs.thisfile()), libs.linenum(), libs.get_TimeLabel_Now() , tmp_msg, lo_Lines_Log, flg_commandline_ouput) '''################### step : 1 get : 4 bars ###################''' #_20191211_135133:next e0 = _lo_BDs_Tmp[_index_start - 0] e1 = _lo_BDs_Tmp[_index_start - 1] e2 = _lo_BDs_Tmp[_index_start - 2] e3 = _lo_BDs_Tmp[_index_start - 3] '''################### step : 2 get : lower price ###################''' pr_Bottom_0 = e0.price_Close if (e0.price_Close < e0.price_Open) else e0.price_Open pr_Bottom_1 = e1.price_Close if (e1.price_Close < e1.price_Open) else e1.price_Open pr_Bottom_2 = e2.price_Close if (e2.price_Close < e2.price_Open) else e2.price_Open pr_Bottom_3 = e3.price_Close if (e3.price_Close < e3.price_Open) else e3.price_Open '''################### step : j1 judge : trend down ? ###################''' '''################### step : j1 : 1 conditions ###################''' cond_1 = ( (pr_Bottom_0 < pr_Bottom_1) \ and (pr_Bottom_1 < pr_Bottom_2) \ and (pr_Bottom_2 < pr_Bottom_3) ) '''################### step : j1 : 2 judge ###################''' if cond_1 == True : #if cond_1 == True '''################### step : j1 : Y judge : trend down ###################''' '''################### step : j1 : Y : 1 log ###################''' #_20191110_142858:caller flg_commandline_ouput = cons_fx.Flags.SWITCH_COMMANDLINE_OUTPUT.value tmp_msg = "(step : 3 : 2) judge : trend down ==> True (cond_1 = %s)" % (cond_1) libfx_7.output_Log(os.path.basename(libs.thisfile()), libs.linenum(), libs.get_TimeLabel_Now() , tmp_msg, lo_Lines_Log, flg_commandline_ouput) '''################### step : j1 : Y : 2 set : vals ###################''' valOf_Ret = True else : #if cond_1 == True '''################### step : j1 : N judge : trend NOT down ###################''' '''################### step : j1 : N : 1 log ###################''' #_20191110_142858:caller flg_commandline_ouput = cons_fx.Flags.SWITCH_COMMANDLINE_OUTPUT.value tmp_msg = "(step : 3 : 2) judge : trend down ==> False (cond_1 = %s)" % (cond_1) libfx_7.output_Log(os.path.basename(libs.thisfile()), libs.linenum(), libs.get_TimeLabel_Now() , tmp_msg, lo_Lines_Log, flg_commandline_ouput) '''################### step : j1 : N : 2 set : vals ###################''' valOf_Ret = False #/if cond_1 == True '''################### step : X : 1 return ###################''' '''################### step : X : 1.1 return values ###################''' # ret = False # ret = True ret = valOf_Ret '''################### step : X : 1.2 return ###################''' return ret
def build_result_csv_data(): '''################### step : 1 dat file ###################''' # time label tlabel = libs.get_TimeLabel_Now() #C:\WORKS_2\WS\WS_Others.prog\prog\D-7\2_2\VIRTUAL\Admin_Projects\curr\data\log dpath_Log__ROOT = "C:\\WORKS_2\\WS\\WS_Others.prog\\prog\\D-7\\2_2\\VIRTUAL\\Admin_Projects\\curr\\data\\log" strOf_Project = "[44_8.5].[order-csv-data]" dname_Log = "%s.(%s).dir" % (strOf_Project, tlabel) '''################### step : 1 dat file ###################''' lo_Order_Numbers = _build_result_csv_data__Dat_File() '''################### step : 2 file : report file ###################''' #_20190901_151726:caller lo_TRs_With_Order_TDS = lo_Order_Reports = \ _build_result_csv_data__Report_File(\ dpath_Log__ROOT , strOf_Project , dname_Log , tlabel ) # 17257299 2019.08.27 08:26:03 buy 1.00 eurjpy 117.345 117.338 117.353 2019.08.27 08:26:27 117.338 0 0 0 -700 '''################### step : 3 build : a full-data list ###################''' #_20190902_132829:tmp #_20190903_124229:caller lo_Orders_Full = _build_result_csv_data__Full_Data_List( lo_TRs_With_Order_TDS, lo_Order_Numbers) # '''################### # step : 3.1 # vars # ###################''' # lo_Orders_Full = [] # # for item in lo_TRs_With_Order_TDS: # # lo_TDs = item[1] # # numOf_Order = int(lo_TDs[0].getText()) # # # judge # if numOf_Order in lo_Order_Numbers : #if numOf_Order in lo_Order_Numbers # # # append # lo_Orders_Full.append(item) # # #/if numOf_Order in lo_Order_Numbers # # # #/for item in lo_TRs_With_Order_TDS: # # # report # #debug # if SWITCH_DEBUG == True : #if SWITCH_DEBUG == True # # # count # lenOf_LO_Orders_Full = len(lo_Orders_Full) # # msg = "[%s:%d] lenOf_LO_Orders_Full ==> %d" % \ # (os.path.basename(libs.thisfile()), libs.linenum() # , lenOf_LO_Orders_Full # ) # # print() # print(msg, file=sys.stderr) # # #/if SWITCH_DEBUG == True '''################### step : 4 write : file ###################''' #_20190903_124102:tmp #_20190903_124741:caller _build_result_csv_data__Write_Full_Data(\ lo_Orders_Full , dpath_Log__ROOT , strOf_Project , dname_Log , tlabel )
def test_2(): '''################### plot ###################''' x=np.arange(-10.0,10.0,0.1) y=np.arctan(x) fig = plt.figure() ax = fig.add_subplot(111) ax.plot(x,y,'b.') y_pi = y/np.pi unit = 0.25 y_tick = np.arange(-0.5, 0.5+unit, unit) '''################### label : x ###################''' x_label = np.arange(-10 / np.pi, 10 / np.pi, np.pi / 2) # x_label = np.arange(-np.pi * 3, np.pi * 3, np.pi / 2) x_label_pi = [r"$" + format(r, ".2g")+ r"\pi$" for r in x_label] ax.set_xticks(x_label) ax.set_xticklabels(x_label_pi, fontsize = 10) # x_label_pi = [r"$-\frac{\pi}{2}$", r"$-\frac{\pi}{4}$", r"$0$", r"$+\frac{\pi}{4}$", r"$+\frac{\pi}{2}$"] '''################### label : y ###################''' y_label = [r"$-\frac{\pi}{2}$", r"$-\frac{\pi}{4}$", r"$0$", r"$+\frac{\pi}{4}$", r"$+\frac{\pi}{2}$"] ax.set_yticks(y_tick*np.pi) ax.set_yticklabels(y_label, fontsize=20) # # y_label2 = [r"$" + format(r, ".2g")+ r"\pi$" for r in y_tick] # ax2 = ax.twinx() # ax2.set_yticks(y_tick*np.pi) # ax2.set_yticklabels(y_label2, fontsize=20) fpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\free" \ + "\\VX7GLZ_science-research\\27_math\\27_6_plot\\_1" \ + "\\6_1.%s.png" % (libs.get_TimeLabel_Now()) print() print("[%s:%d] fpath_Out => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fpath_Out ), file=sys.stderr) '''################### grid ###################''' plt.grid(b=None, which='major', axis='both') '''################### plot ###################''' # ax.savefig("%s\\6_1.%s.png" % (fpath_Out, libs.get_TimeLabel_Now())) plt.savefig(fpath_Out) # plt.savefig("%s\\6_1.%s.png" % (dpath_Out, libs.get_TimeLabel_Now())) plt.show()
def test_1(): '''################### file path ###################''' dpath_Log_Fx = "C:\\Users\\iwabuchiken\\AppData\\Roaming\\MetaQuotes\\Terminal\\56FC49B0C953127FDE33461B90444E81\\MQL4\\Files\\Logs" fname_Log_Fx = "dev.20180914_063011.log" # fname_Log_Fx = "dev.20180913_084909.log" # fname_Log_Fx = "dev.20180913_084909.SHRIK-500.log" fpath_Log_Fx = os.path.join(dpath_Log_Fx, fname_Log_Fx) dpath_Log = "C:\\WORKS_2\\WS\\WS_Others\\prog\\D-7\\2_2\\VIRTUAL\\Admin_Projects\\curr\\ops\\5.1" fname_Log = "log_CountTicks.%s.log" % libs.get_TimeLabel_Now() fpath_Log = os.path.join(dpath_Log, fname_Log) '''################### file : open ###################''' f_Log_FX = open(fpath_Log_Fx, "r") '''################### read file content ###################''' data = f_Log_FX.readlines() print("[%s:%d] len(data) = %d" % \ (os.path.basename(libs.thisfile()), libs.linenum() , len(data) ), file=sys.stderr) '''################### extract target tokesn from each line ###################''' # ['[2018.09.13', '08:49:18', '/', 'fnc_CountTick.mq4:289]cntOf_Ticks', '=', '1', '/', 'cntOf_Ticks_In_The_Bar', '=', '1', '(2018.09.13', '08:49:18)'] # >>> len(b) # 12 lenOf_Data = len(data) aryOf_Hit_Data = [] for i in range(1, lenOf_Data - 1): item = data[i] item2 = data[i - 1] # split tokens = item.split(" ") tokens2 = item2.split(" ") # tokens cntOf_Ticks = tokens[5] cntOf_Ticks_In_The_Bar = tokens[9] dateTime_Local = (" ".join([tokens[10], tokens[11]])).strip() dateTime_Local2 = (" ".join([tokens2[10], tokens2[11]])).strip() # dateTime_Local = " ".join([tokens[10], tokens[11]]) # dateTime_Local = tokens[10] # judge if cntOf_Ticks_In_The_Bar == "1": #if cntOf_Ticks_In_The_Bar == "1" # append # aryOf_Hit_Data.append([cntOf_Ticks, cntOf_Ticks_In_The_Bar, dateTime_Local]) #debug # msg = "[%s:%d] dateTime_Local = %s / prev count = %s" % \ # msg = "dateTime_Local = %s / prev count = %s" % \ msg = "dateTime_Local\t%s\tprev count\t%s" % \ ( dateTime_Local2, tokens2[9] # dateTime_Local, tokens2[9] ) # print(msg, file=sys.stderr) # append aryOf_Hit_Data.append(msg) #/if cntOf_Ticks_In_The_Bar == "1" #/for item in data: '''################### last item ###################''' #debug item = data[-1] tokens = item.split(" ") dateTime_Local = (" ".join([tokens[10], tokens[11]])).strip() # msg = "dateTime_Local = %s / prev count = %s" % \ msg = "dateTime_Local\t%s\tprev count\t%s" % \ ( dateTime_Local, tokens[9] # dateTime_Local, tokens[9] ) # append aryOf_Hit_Data.append(msg) # print(msg, file=sys.stderr) '''################### file : close ###################''' f_Log_FX.close() '''################### report ###################''' # file : open f_Log = open(fpath_Log, "a") #debug msg = "[%s:%d] len(aryOf_Hit_Data) = %d" % \ (os.path.basename(libs.thisfile()), libs.linenum() , len(aryOf_Hit_Data) ) print(msg, file=sys.stderr) # write file # file path # msg = "[%s / %s:%d] file = %s\n" % \ msg = "[%s / %s:%d]\nfile = %s\ndir = %s" % \ ( libs.get_TimeLabel_Now() , os.path.basename(libs.thisfile()), libs.linenum() , fname_Log_Fx, dpath_Log_Fx # , fpath_Log_Fx ) f_Log.write(msg) # len of hit data msg = "[%s / %s:%d] len(aryOf_Hit_Data) = %d\n" % \ ( libs.get_TimeLabel_Now() , os.path.basename(libs.thisfile()), libs.linenum() , len(aryOf_Hit_Data) ) f_Log.write(msg) for item in aryOf_Hit_Data: # print(item) # write file f_Log.write(item) f_Log.write("\n") #/for item in aryOf_Hit_Data: # separation line f_Log.write("\n") # file : close f_Log.close() '''################### message ###################''' print() print("[%s:%d] test_1 =======================" % \ (os.path.basename(libs.thisfile()), libs.linenum() ), file=sys.stderr)
def _test_2__20190123_100239__CommandLine_Args(): '''################### vars ###################''' #ref C:\Users\iwabuchiken\AppData\Roaming\MetaQuotes\Terminal\B9B5D4C0EA7B43E1F3A680F94F757B3D\MQL4\Files\Report_Trades dpath_Src_HTML = "C:\\Users\\iwabuchiken\\AppData\\Roaming\\MetaQuotes\\Terminal\\B9B5D4C0EA7B43E1F3A680F94F757B3D\\MQL4\\Files\\Report_Trades" fname_Src_HTML = "DetailedStatement.(20190122_230530).(e-j,M1).htm" # fname_Src_HTML = "DetailedStatement.(20190117_231722).(e-j,M1).htm" dpath_Dst_CSV = "C:\\Users\\iwabuchiken\\AppData\\Roaming\\MetaQuotes\\Terminal\\B9B5D4C0EA7B43E1F3A680F94F757B3D\\MQL4\\Files\\Report_Trades" fname_Dst_CSV = "trade_log.(20190122_230530).(e-j,M1).csv" #ddd '''################### get : command line args fname_Src_HTML ###################''' #ref https://www.tutorialspoint.com/python/python_command_line_arguments.htm lo_Args = sys.argv print() print("[%s:%d] lo_Args =>" % \ (os.path.basename(libs.thisfile()), libs.linenum() ), file=sys.stdout) print(lo_Args) # arg for file name? for item in lo_Args[1:]: # detection '''################### fname_Src_HTML ###################''' #ref https://www.tutorialspoint.com/python/string_startswith.htm # if item.startswith("filename=") : #if item.startswith("filename=") if item.startswith( "fname_Src_HTML="): #if item.startswith("filename=") # update : file name fname_Src_HTML = item.split("=")[1] print() print("[%s:%d] fname_Src_HTML => updated : %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fname_Src_HTML ), file=sys.stdout) #/if item.startswith("filename=") '''################### dpath_Src_HTML ###################''' #ref https://www.tutorialspoint.com/python/string_startswith.htm # if item.startswith("filename=") : #if item.startswith("filename=") if item.startswith( "dpath_Src_HTML="): #if item.startswith("filename=") # update : file name dpath_Src_HTML = item.split("=")[1] print() print("[%s:%d] dpath_Src_HTML => updated : %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , dpath_Src_HTML ), file=sys.stdout) '''################### dpath_Dst_CSV ###################''' #ref https://www.tutorialspoint.com/python/string_startswith.htm # if item.startswith("filename=") : #if item.startswith("filename=") if item.startswith("dpath_Dst_CSV="): #if item.startswith("filename=") # update : file name dpath_Dst_CSV = item.split("=")[1] print() print("[%s:%d] dpath_Dst_CSV => updated : %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , dpath_Dst_CSV ), file=sys.stdout) '''################### fname_Dst_CSV ###################''' #ref https://www.tutorialspoint.com/python/string_startswith.htm # if item.startswith("filename=") : #if item.startswith("filename=") if item.startswith("fname_Dst_CSV="): #if item.startswith("filename=") # update : file name fname_Dst_CSV = item.split("=")[1] print() print("[%s:%d] fname_Dst_CSV => updated : %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fname_Dst_CSV ), file=sys.stdout) '''################### add time stamp ###################''' #ref https://www.tutorialspoint.com/python/string_startswith.htm if item.startswith("timestamp"): #if item.startswith("filename=") # update : file name #ref https://stackoverflow.com/questions/541390/extracting-extension-from-filename-in-python#541394 filetrunk, ext = os.path.splitext(fname_Dst_CSV) fname_Dst_CSV = "%s.%s%s" % (filetrunk, libs.get_TimeLabel_Now(), ext) print() print("[%s:%d] fname_Dst_CSV => updated : %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fname_Dst_CSV ), file=sys.stdout) #/if item.startswith("filename=") #/for item in lo_Args[1:]: print() print("[%s:%d] source file info --------------\n" % \ (os.path.basename(libs.thisfile()), libs.linenum() ), file=sys.stdout) print() print("fname_Src_HTML => %s\n" % \ (fname_Src_HTML), file=sys.stdout) print("dpath_Src_HTML => %s\n" % \ (dpath_Src_HTML), file=sys.stdout) '''################### return ###################''' return (dpath_Src_HTML, fname_Src_HTML, dpath_Dst_CSV, fname_Dst_CSV)
def test_2(): '''################### file path ###################''' PROJECT_ROOT = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research\\28_Physics\\1_\\_17" dpath_Out = "%s\\data_1_17.1" % (PROJECT_ROOT) ### fpath full tlabel = libs.get_TimeLabel_Now() session_Label = "1_17.1" # fpath_Full = "%s\\image.%s.%s.png" % (dpath_Out, session_Label, tlabel) '''################### ops ###################''' x = np.linspace(0, np.pi * 2, 100) # x = np.linspace(0, np.pi, 1000) ### dir path dpath_Full = "%s\\images\\images_%s" % (dpath_Out, tlabel) ### make dir #ref is directory https://stackoverflow.com/questions/82831/how-to-check-whether-a-file-exists answered Sep 17 '08 at 15:01 if not os.path.isdir(dpath_Full): os.makedirs(dpath_Full) # os.makedirs(dpath_Out) '''################### graph : settings ###################''' # # graph : settings # plt.ylim(-2,2) # plt.xlim(0, np.pi * 2) # plt.grid(b=None, which='major', axis='both') # plt.xticks(np.arange(0, np.pi*2, np.pi / 4)) # plt.yticks(np.arange(-2, 2, 0.5)) for index in np.arange(0, 12, 1): # for index in np.arange(0, 11, 1): # for index in np.arange(0, 20, 1): # graph : settings plt.ylim(-2, 2) plt.xlim(0, np.pi * 2) plt.grid(b=None, which='major', axis='both') plt.xticks(np.arange(0, np.pi * 2, np.pi / 4)) plt.yticks(np.arange(-2, 2, 0.5)) ### fpath fpath_Full = "%s\\image.%s.%s.(%02d).png" \ % (dpath_Full, session_Label, tlabel, index) tick = np.pi / 6 * index y = np.sin(x + tick) # # graph : settings # plt.ylim(-2,2) # plt.xlim(0, np.pi * 2) # plt.grid(b=None, which='major', axis='both') # plt.xticks(np.arange(0, np.pi*2, np.pi / 4)) # plt.yticks(np.arange(-2, 2, 0.5)) # plt.yticks([-2,-1,1,2]) # plt.xticks([-2,-1,1,2]) plt.xlabel("x") plt.ylabel("sin(x + %.3f)" % (tick)) plt.title("x ~ sin(x + a) (index = %d)\n%s" \ % (index, os.path.basename(fpath_Full))) # plot plt.plot(x, y) plt.savefig(fpath_Full) # clear # plt.gcf().clear() plt.clf()
def test_3(): '''################### plot ###################''' x=np.linspace(-2 * np.pi, 2 * np.pi, 1000) y=np.sin(x) y2= [i**2 for i in y] fig = plt.figure() ax = fig.add_subplot(111) ax.plot(x,y,'b') ax.plot(x,y2,'g') ax.plot(x,y + y2,'r') # ax.plot(x,y,'b.') # y_pi = y/np.pi # unit = 0.25 # y_tick = np.arange(-0.5, 0.5+unit, unit) # '''################### label : x ###################''' #ref https://stackoverflow.com/questions/10729737/how-can-i-set-the-y-axis-in-radians-in-a-python-plot tickVal_X = 0.5 # tickVal_X = 1 x_tick = np.arange(-2, 2 + tickVal_X, tickVal_X) # x_tick = np.arange(-2, 2, 1) x_label = [r"$" + format(r, ".2g")+ r"\pi$" for r in x_tick] ax.set_xticks(x_tick * np.pi) ax.set_xticklabels(x_label, fontsize = 10) # x_label = np.arange(-10 / np.pi, 10 / np.pi, np.pi / 2) # # x_label = np.arange(-np.pi * 3, np.pi * 3, np.pi / 2) # # x_label_pi = [r"$" + format(r, ".2g")+ r"\pi$" for r in x_label] # # ax.set_xticks(x_label) # # ax.set_xticklabels(x_label_pi, fontsize = 10) # # # x_label_pi = [r"$-\frac{\pi}{2}$", r"$-\frac{\pi}{4}$", r"$0$", r"$+\frac{\pi}{4}$", r"$+\frac{\pi}{2}$"] # # '''################### # label : y # ###################''' # y_label = [r"$-\frac{\pi}{2}$", r"$-\frac{\pi}{4}$", r"$0$", r"$+\frac{\pi}{4}$", r"$+\frac{\pi}{2}$"] # ax.set_yticks(y_tick*np.pi) # ax.set_yticklabels(y_label, fontsize=20) # # y_label2 = [r"$" + format(r, ".2g")+ r"\pi$" for r in y_tick] # ax2 = ax.twinx() # ax2.set_yticks(y_tick*np.pi) # ax2.set_yticklabels(y_label2, fontsize=20) fpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\free" \ + "\\VX7GLZ_science-research\\27_math\\27_6_plot\\_1" \ + "\\6_1.%s.png" % (libs.get_TimeLabel_Now()) print() print("[%s:%d] fpath_Out => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fpath_Out ), file=sys.stderr) '''################### grid ###################''' plt.grid(b=None, which='major', axis='both') '''################### plot ###################''' # ax.savefig("%s\\6_1.%s.png" % (fpath_Out, libs.get_TimeLabel_Now())) plt.savefig(fpath_Out) # plt.savefig("%s\\6_1.%s.png" % (dpath_Out, libs.get_TimeLabel_Now())) plt.show()
def test_5_2(): '''################### params ###################''' x_, y_ = _test_5__Params() z = list(zip(x_, y_)) '''################### graph : settings ###################''' # xlim plt.xlim(-2,2) plt.ylim(-2,2) plt.grid(b=None, which='major', axis='both') '''################### paths and dirs ###################''' tlabel = libs.get_TimeLabel_Now() dpath_Images = "C:\\WORKS_2\\WS\\WS_Others\\free" \ + "\\VX7GLZ_science-research\\27_math" \ + "\\27_6_plot\\_1\\data.27_6_1\\images" dpath_Images_Out = "%s\\images_%s" % (dpath_Images, tlabel) # dirs if not os.path.isdir(dpath_Images_Out) : os.makedirs(dpath_Images_Out) '''################### plot ###################''' cnt = 1 for loc in z : fpath_Images_Out = "%s\\6_1.%s.(%02d).png" \ % (dpath_Images_Out, tlabel, cnt) print() print("[%s:%d] fpath_Images_Out => %s" % \ (os.path.basename(libs.thisfile()), libs.linenum() , fpath_Images_Out ), file=sys.stderr) '''################### title ###################''' plt_Title = "rotate : (%02d) : x = %.4f / y = %.4f\n%s" \ % (cnt, loc[0], loc[1], os.path.basename(fpath_Images_Out)) plt.title(plt_Title) '''################### grid ###################''' # plt.grid(b=None, which='major', axis='both') '''################### plot ###################''' plt.scatter([loc[0]], [loc[1]], s = 60) # ax.savefig("%s\\6_1.%s.png" % (fpath_Out, libs.get_TimeLabel_Now())) plt.savefig(fpath_Images_Out) '''################### increment ###################''' cnt += 1
def test_5(): '''################### vars ###################''' tlabel = libs.get_TimeLabel_Now() dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\free" \ + "\\VX7GLZ_science-research\\28_Physics\\1_\\_17" \ + "\\images" '''################### file path ###################''' # dpath_Out = "C:\\WORKS_2\\WS\\WS_Others\\prog\\D-7\\2_2\\VIRTUAL\\Admin_Projects\\others\\VX7GLZ\\28_physics\\1_\\_16" ### fpath full session_Label = "1-17-2" fpath_Full = "%s\\image.%s.%s.png" % (dpath_Out, session_Label, tlabel) x = np.arange(0.0, 2, 0.01) y1 = np.sin(2*np.pi*x) y2 = 1.2*np.sin(4*np.pi*x) plt.plot(x, y1, label="sin(2πx)") plt.plot(x, y2, label="1.2*sin(4πx)") # plt.plot(x, y1, label="x and y1") # plt.plot(x, y2, label="x and y2") #ref https://matplotlib.org/users/legend_guide.html # plt.legend(bbox_to_anchor=(1.05, 1), loc=2, borderaxespad=0.) # plt.legend(bbox_to_anchor=(0., 1.02, 1., .102), loc=3, # plt.legend(bbox_to_anchor=(0.5, 1.02, 1., .102), loc=3, # plt.legend(bbox_to_anchor=(0.5, 1.02, 0.7, .102), loc=3, # plt.legend(bbox_to_anchor=(0., 1.02, 0.3, .102), loc=3, _anchor = (.7, 1.) # _anchor = (.9, .1) # _anchor = (.9, .5) # _anchor = (1.05, .5) # _anchor = (1.05, 1) # _anchor = (0., 1.02, 0.5, .102) loc_Legend = 2 # loc_Legend = "best" # loc_Legend = 1 ncol_Legend = 1 # ncol_Legend = 2 _borderaxespad = 0.5 # plt.legend(bbox_to_anchor=(0., 1.02, 0.5, .102), loc=1, plt.legend(bbox_to_anchor= _anchor, loc= loc_Legend, ncol= ncol_Legend, borderaxespad= _borderaxespad) # borderaxespad= _borderaxespad) # ncol= ncol_Legend, borderaxespad=0.) # ncol= ncol_Legend, mode="expand", borderaxespad=0.) # ncol=2, mode="expand", borderaxespad=0.) # plt.plot(x, y1, y2) # plt.plot(x, y1) plt.xlabel("x") plt.ylabel("y1") plt.title("test_5 : anchor=[%s]\nloc=%s borderaxespad=%.2f" \ % ( ",".join([str(x) for x in _anchor]) , str(loc_Legend), _borderaxespad # , loc_Legend ) ) # plt.title("test_5") # red_patch = mpatches.Patch(color='red', label='The red data') # plt.legend(handles=[red_patch]) plt.savefig(fpath_Full)
def test_1(): cons_Width = 10 x = np.linspace(-cons_Width * np.pi, cons_Width * np.pi, 1000) # x = np.linspace(-3 * np.pi, 3 * np.pi, 1000) # x = np.linspace(-3 * np.pi, 3 * np.pi, 100) # fig = plt.figure() # # ax = fig.add_subplot(111) # time label tlabel = libs.get_TimeLabel_Now() # num of files numOf_ImageFiles = 30 # numOf_ImageFiles = 15 for i in range(numOf_ImageFiles): # for i in range(6): plt_Title = "sin(x - %.02f x np.pi)" % (i / 2 * 3) # plt_Title = "sin(x + %.02f x np.pi)" % (i / 2 * 3) # plt_Title = "sin(x + %.02f * np.pi)" % (i / 2 * 3) # plt_Title = "sin(x + %02f * np.pi)" % (i / 2 * 3) # plt_Title = "sin(x + %02f * np.pi)" % (i / 2) # plt_Title = "sin(x + %d * np.pi)" % (i) plt.title(plt_Title, fontsize=15) y1 = np.sin(x - (i / 2) * np.pi) # y1 = np.sin(x + (i / 2) * np.pi) # y1 = np.sin(x + i * np.pi) # y2 = np.sin(x * 2) plt.plot(x, y1) # plt.plot(x, y2) '''################### graph : settings ###################''' plt.grid(b=None, which='major', axis='both') # x_tick = np.arange(-3*np.pi, 3*np.pi, np.pi / 4) # # x_label2 = [r"$" + format(r, ".2g")+ r"\pi$" for r in x_tick] # # plt.set_xticklabels(x_label2, fontsize = 10) dpath_Images_Out = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research\\28_Physics\\10_electromagnetic\\1_\\images\\8_" fname_Images_Out = "image.%s.%s.png" % (tlabel, plt_Title) # fname_Images_Out = "image.%s.(sin_+%02f).png" % (tlabel, i / 2) # fname_Images_Out = "image.%s.(i=%d).png" % (tlabel, i) # fname_Images_Out = "image.%s.png" % (libs.get_TimeLabel_Now()) fpath_Images_Out = "%s\\%s" % (dpath_Images_Out, fname_Images_Out) plt.savefig(fpath_Images_Out) # clear plot plt.clf()
def test_1(): '''################### setup ###################''' # time label tlabel = libs.get_TimeLabel_Now() dpath_Images_Out = "C:\\WORKS_2\\WS\\WS_Others\\free\\VX7GLZ_science-research" \ + "\\28_Physics\\10_electromagnetic\\1_\\images\\" \ + "9_%s" % tlabel # + "9_" # dirs if not os.path.isdir(dpath_Images_Out): os.makedirs(dpath_Images_Out) #ref https://stackoverflow.com/questions/36470343/how-to-draw-a-line-with-matplotlib x = np.linspace(0, 5) # y = x**2 e = 1 r = 2 t = np.pi / 4 # A = [0, 0] # # B = [0, e] # B = [e, 0] # C = [r * np.cos(t), r * np.sin(t)] # D = [e + r * np.cos(t), r * np.sin(t)] # print("[%s:%d] D =>" % \ # (os.path.basename(libs.thisfile()), libs.linenum() # # ), file=sys.stderr) # # print(D) '''################### graph setup ###################''' plt.grid(b=None, which='major', axis='both') #ref https://stackoverflow.com/questions/2849286/python-matplotlib-subplot-how-to-set-the-axis-range plt.ylim([-3, 3]) # plt.ylim([-1 * (e * r * 1.5) * 1.0, (e * r * 1.5) * 1.0]) plt.xlim([-1 * (e * r * 1.5) * 1.0, (e * r * 1.5) * 1.0]) # plt.ylim([-3, 3]) # plt.xlim([-1, 3]) #ref https://stackoverflow.com/questions/4136244/matplotlib-pyplot-how-to-enforce-axis-range ax = plt.gca() ax.set_autoscale_on(False) #ref https://matplotlib.org/examples/pylab_examples/equal_aspect_ratio.html # xy ratio ---> equal # plt.axes().set_aspect('equal') # plt.axes().set_aspect('equal', 'datalim') '''################### lines ###################''' cons_Width = 10 # rng = np.linspace(0, np.pi / 2, 12) # rng = np.linspace(0, np.pi, 6) rng = np.linspace(0, np.pi / 2, 24) # rng = np.linspace(0, np.pi / 2, 12) # rng = np.linspace(0, np.pi / 2, 6) # rng = np.linspace(0, np.pi / 2, np.pi / 8) #debug print("rng =>") print(rng) # return # counter for iteration cntOf_Iter = 0 for th in rng: '''################### data ###################''' A = [0, 0] # B = [0, e] B = [e, 0] C = [r * np.cos(th), r * np.sin(th)] D = [e + r * np.cos(th), r * np.sin(th)] E = [0, -r * np.cos(th)] F = [e, -r * np.cos(th)] # AC, AB x1, y1 = [A[0], C[0], A[0], B[0]], \ [A[1], C[1], A[1], B[1]] # CD BD x2, y2 = [C[0], D[0], B[0], D[0]], \ [C[1], D[1], B[1], D[1]] # AE x3, y3 = [A[0], E[0]], \ [A[1], E[1]] # BF x4, y4 = [B[0], F[0]], \ [B[1], F[1]] # EF x5, y5 = [E[0], F[0]], \ [E[1], F[1]] # x2, y2 = [C[0], D[0]], \ # [C[1], D[1]] # x1, y1 = [-1, 12], [1, 4] # x2, y2 = [1, 10], [3, 2] '''################### graph ###################''' plt.ylim([-3, 3]) # plt.ylim([-1 * (e * r * 1.5) * 1.0, (e * r * 1.5) * 1.0]) plt.xlim([-1 * (e * r * 1.5) * 1.0, (e * r * 1.5) * 1.0]) plt.grid(b=None, which='major', axis='both') # title plt_Title = "theta=%d-over-pi" % (cntOf_Iter) # increment counter cntOf_Iter += 1 # plt_Title = "theta=%d-over-pi" % (th) # plt_Title = "theta = %d / pi" % (th) # plt_Title = "theta = %.02f pi" % (th / np.pi) # plt_Title = "theta = %.02f pi" % (t / np.pi) plt.title(plt_Title, fontsize=15) plt.axes().set_aspect('equal') # #ref https://stackoverflow.com/questions/19125722/adding-a-legend-to-pyplot-in-matplotlib-in-the-most-simple-manner-possible # plt.legend(loc='upper left') '''################### plot ###################''' # handle_AC_AB, = plt.plot(x1, y1, x2, y2, marker = 'o', label='AC AB') # handle_AE, = plt.plot(x3, y3, marker = 'o', label='AE') # handle_AE, = plt.plot(x3, y3, marker = 'o', label='AE') # plt.plot(x4, y4, x5, y5, marker = 'o') # plt.plot(x3, y3, x4, y4, x5, y5, marker = 'o') # plt.plot(x1, y1, x2, y2, x3, y3, x4, y4, x5, y5, marker = 'o') # plt.plot(x1, y1, x2, y2, x3, y3, x4, y4, marker = 'o') # plt.plot(x1, y1, x2, y2, x3, y3, marker = 'o') # plt.plot(x1, y1, x2, y2, marker = 'o') plt.plot(x1, y1, marker='o', label="AC AB") plt.plot(x2, y2, marker='^', label="CD BD") plt.plot(x3, y3, marker='1', label="AE") plt.plot(x4, y4, marker='s', label="BF") plt.plot(x5, y5, marker='P', label="EF") # plt.legend() #ref https://qiita.com/okadate/items/00227316187b60f861f5 "枠外に出す" plt.legend(bbox_to_anchor=(1.01, 1), loc=2, borderaxespad=0) # legend #ref https://matplotlib.org/users/legend_guide.html # plt.legend(handles=[handle_AC_AB, handle_AE]) # plt.legend(handles=[line_up, line_down]) '''################### save : image ###################''' fname_Images_Out = "image.%s.%s.png" % (tlabel, plt_Title) fpath_Images_Out = "%s\\%s" % (dpath_Images_Out, fname_Images_Out) plt.savefig(fpath_Images_Out) # clear plot plt.clf()