时间:2021-07-01 10:21:17 帮助过:51人阅读
from time import *from xlwt.Workbook import *from xlwt.Style import *style = XFStyle() wb = Workbook() ws0 = wb.add_sheet('0') colcount = 200 + 1rowcount = 6000 + 1t0 = time()print("\nstart: %s" % ctime(t0))print("Filling...")for col in xrange(colcount):print("[%d]" % col, end=' ') for row in xrange(rowcount): ws0.write(row, col, "BIG") t1 = time() - t0print("\nsince starting elapsed %.2f s" % (t1))print("Storing...") wb.save('big-16Mb.xls') t2 = time() - t0print("since starting elapsed %.2f s" % (t2))from xlwt import *font0 = Font() font0.name = 'Times New Roman'font0.struck_out = True font0.bold = True style0 = XFStyle() style0.font = font0 wb = Workbook() ws0 = wb.add_sheet('0') ws0.write(1, 1, 'Test', style0)for i in range(0, 0x53): borders = Borders() borders.left = i borders.right = i borders.top = i borders.bottom = i style = XFStyle() style.borders = borders ws0.write(i, 2, '', style) ws0.write(i, 3, hex(i), style0) ws0.write_merge(5, 8, 6, 10, "") wb.save('blanks.xls')from xlwt import *w = Workbook() ws = w.add_sheet('Hey, Dude')for i in range(6, 80): fnt = Font() fnt.height = i*20style = XFStyle() style.font = fnt ws.write(1, i, 'Test') ws.col(i).width = 0x0d00 + i w.save('col_width.xls')from xlwt import *from datetime import datetime w = Workbook() ws = w.add_sheet('Hey, Dude') fmts = ['M/D/YY','D-MMM-YY','D-MMM','MMM-YY','h:mm AM/PM','h:mm:ss AM/PM','h:mm','h:mm:ss','M/D/YY h:mm','mm:ss','[h]:mm:ss','mm:ss.0', ] i = 0for fmt in fmts: ws.write(i, 0, fmt) style = XFStyle() style.num_format_str = fmt ws.write(i, 4, datetime.now(), style) i += 1w.save('dates.xls')from xlwt import *font0 = Font() font0.name = 'Times New Roman'font0.struck_out = True font0.bold = True style0 = XFStyle() style0.font = font0 wb = Workbook() ws0 = wb.add_sheet('0') ws0.write(1, 1, 'Test', style0)for i in range(0, 0x53): fnt = Font() fnt.name = 'Arial'fnt.colour_index = i fnt.outline = True borders = Borders() borders.left = i style = XFStyle() style.font = fnt style.borders = borders ws0.write(i, 2, 'colour', style) ws0.write(i, 3, hex(i), style0) wb.save('format.xls')from xlwt import *w = Workbook() ws = w.add_sheet('F') ws.write(0, 0, Formula("-(1+1)")) ws.write(1, 0, Formula("-(1+1)/(-2-2)")) ws.write(2, 0, Formula("-(134.8780789+1)")) ws.write(3, 0, Formula("-(134.8780789e-10+1)")) ws.write(4, 0, Formula("-1/(1+1)+9344")) ws.write(0, 1, Formula("-(1+1)")) ws.write(1, 1, Formula("-(1+1)/(-2-2)")) ws.write(2, 1, Formula("-(134.8780789+1)")) ws.write(3, 1, Formula("-(134.8780789e-10+1)")) ws.write(4, 1, Formula("-1/(1+1)+9344")) ws.write(0, 2, Formula("A1*B1")) ws.write(1, 2, Formula("A2*B2")) ws.write(2, 2, Formula("A3*B3")) ws.write(3, 2, Formula("A4*B4*sin(pi()/4)")) ws.write(4, 2, Formula("A5%*B5*pi()/1000")) ws.write(5, 2, Formula("C1+C2+C3+C4+C5/(C1+C2+C3+C4/(C1+C2+C3+C4/(C1+C2+C3+C4)+C5)+C5)-20.3e-2")) ws.write(5, 3, Formula("C1^2")) ws.write(6, 2, Formula("SUM(C1;C2;;;;;C3;;;C4)")) ws.write(6, 3, Formula("SUM($A$1:$C$5)")) ws.write(7, 0, Formula('"lkjljllkllkl"')) ws.write(7, 1, Formula('"yuyiyiyiyi"')) ws.write(7, 2, Formula('A8 & B8 & A8')) ws.write(8, 2, Formula('now()')) ws.write(10, 2, Formula('TRUE')) ws.write(11, 2, Formula('FALSE')) ws.write(12, 3, Formula('IF(A1>A2;3;"hkjhjkhk")')) w.save('formulas.xls')from xlwt import *f = Font() f.height = 20*72f.name = 'Verdana'f.bold = True f.underline = Font.UNDERLINE_DOUBLE f.colour_index = 4h_style = XFStyle() h_style.font = f w = Workbook() ws = w.add_sheet('F') n = "HYPERLINK"ws.write_merge(1, 1, 1, 10, Formula(n + '("http://www.irs.gov/pub/irs-pdf/f1000.pdf";"f1000.pdf")'), h_style) ws.write_merge(2, 2, 2, 25, Formula(n + '("mailto:roman.kiseliov@gmail.com?subject=pyExcelerator-feedback&Body=Hello,%20Roman!";"pyExcelerator-feedback")'), h_style) w.save("hyperlinks.xls")from xlwt import *fnt = Font() fnt.name = 'Arial'fnt.colour_index = 4fnt.bold = True borders = Borders() borders.left = 6borders.right = 6borders.top = 6borders.bottom = 6al = Alignment() al.horz = Alignment.HORZ_CENTER al.vert = Alignment.VERT_CENTER style = XFStyle() style.font = fnt style.borders = borders style.alignment = al wb = Workbook() ws0 = wb.add_sheet('sheet0') ws1 = wb.add_sheet('sheet1') ws2 = wb.add_sheet('sheet2')for i in range(0, 0x200, 2): ws0.write_merge(i, i+1, 1, 5, 'test %d' % i, style) ws1.write_merge(i, i, 1, 7, 'test %d' % i, style) ws2.write_merge(i, i+1, 1, 7 + (i%10), 'test %d' % i, style) wb.save('merged.xls')import xlwt book = xlwt.Workbook()for magn in (0, 60, 100, 75, 150):for preview in (False, True): sheet = book.add_sheet('magn%d%s' % (magn, "np"[preview]))if preview: sheet.preview_magn = magnelse: sheet.normal_magn = magn sheet.page_preview = previewfor rowx in range(100): sheet.write(rowx, 0, "Some text") book.save("zoom_magnification.xls")import xlwtimport datetime ezxf = xlwt.easyxfdef write_xls(file_name, sheet_name, headings, data, heading_xf, data_xfs): book = xlwt.Workbook() sheet = book.add_sheet(sheet_name) rowx = 0for colx, value in enumerate(headings): sheet.write(rowx, colx, value, heading_xf) sheet.set_panes_frozen(True) # frozen headings instead of split panessheet.set_horz_split_pos(rowx+1) # in general, freeze after last heading rowsheet.set_remove_splits(True) # if user does unfreeze, don't leave a split therefor row in data: rowx += 1for colx, value in enumerate(row): sheet.write(rowx, colx, value, data_xfs[colx]) book.save(file_name)if __name__ == '__main__':import sys mkd = datetime.date hdngs = ['Date', 'Stock Code', 'Quantity', 'Unit Price', 'Value', 'Message'] kinds = 'date text int price money text'.split() data = [ [mkd(2007, 7, 1), 'ABC', 1000, 1.234567, 1234.57, ''], [mkd(2007, 12, 31), 'XYZ', -100, 4.654321, -465.43, 'Goods returned'], ] + [ [mkd(2008, 6, 30), 'PQRCD', 100, 2.345678, 234.57, ''], ] * 100heading_xf = ezxf('font: bold on; align: wrap on, vert centre, horiz center') kind_to_xf_map = {'date': ezxf(num_format_str='yyyy-mm-dd'),'int': ezxf(num_format_str='#,##0'),'money': ezxf('font: italic on; pattern: pattern solid, fore-colour grey25', num_format_str='$#,##0.00'),'price': ezxf(num_format_str='#0.000000'),'text': ezxf(), } data_xfs = [kind_to_xf_map[k] for k in kinds] write_xls('xlwt_easyxf_simple_demo.xls', 'Demo', hdngs, data, heading_xf, data_xfs)from xlwt import *w = Workbook() ws = w.add_sheet('Hey, Dude')for i in range(6, 80): fnt = Font() fnt.height = i*20style = XFStyle() style.font = fnt ws.write(i, 1, 'Test') ws.row(i).set_style(style) w.save('row_styles.xls')from xlwt import *fnt = Font() fnt.name = 'Arial'fnt.colour_index = 4fnt.bold = True borders = Borders() borders.left = 6borders.right = 6borders.top = 6borders.bottom = 6style = XFStyle() style.font = fnt style.borders = borders wb = Workbook() ws0 = wb.add_sheet('Rows Outline') ws0.write_merge(1, 1, 1, 5, 'test 1', style) ws0.write_merge(2, 2, 1, 4, 'test 1', style) ws0.write_merge(3, 3, 1, 3, 'test 2', style) ws0.write_merge(4, 4, 1, 4, 'test 1', style) ws0.write_merge(5, 5, 1, 4, 'test 3', style) ws0.write_merge(6, 6, 1, 5, 'test 1', style) ws0.write_merge(7, 7, 1, 5, 'test 4', style) ws0.write_merge(8, 8, 1, 4, 'test 1', style) ws0.write_merge(9, 9, 1, 3, 'test 5', style) ws0.row(1).level = 1ws0.row(2).level = 1ws0.row(3).level = 2ws0.row(4).level = 2ws0.row(5).level = 2ws0.row(6).level = 2ws0.row(7).level = 2ws0.row(8).level = 1ws0.row(9).level = 1ws1 = wb.add_sheet('Columns Outline') ws1.write_merge(1, 1, 1, 5, 'test 1', style) ws1.write_merge(2, 2, 1, 4, 'test 1', style) ws1.write_merge(3, 3, 1, 3, 'test 2', style) ws1.write_merge(4, 4, 1, 4, 'test 1', style) ws1.write_merge(5, 5, 1, 4, 'test 3', style) ws1.write_merge(6, 6, 1, 5, 'test 1', style) ws1.write_merge(7, 7, 1, 5, 'test 4', style) ws1.write_merge(8, 8, 1, 4, 'test 1', style) ws1.write_merge(9, 9, 1, 3, 'test 5', style) ws1.col(1).level = 1ws1.col(2).level = 1ws1.col(3).level = 2ws1.col(4).level = 2ws1.col(5).level = 2ws1.col(6).level = 2ws1.col(7).level = 2ws1.col(8).level = 1ws1.col(9).level = 1ws2 = wb.add_sheet('Rows and Columns Outline') ws2.write_merge(1, 1, 1, 5, 'test 1', style) ws2.write_merge(2, 2, 1, 4, 'test 1', style) ws2.write_merge(3, 3, 1, 3, 'test 2', style) ws2.write_merge(4, 4, 1, 4, 'test 1', style) ws2.write_merge(5, 5, 1, 4, 'test 3', style) ws2.write_merge(6, 6, 1, 5, 'test 1', style) ws2.write_merge(7, 7, 1, 5, 'test 4', style) ws2.write_merge(8, 8, 1, 4, 'test 1', style) ws2.write_merge(9, 9, 1, 3, 'test 5', style) ws2.row(1).level = 1ws2.row(2).level = 1ws2.row(3).level = 2ws2.row(4).level = 2ws2.row(5).level = 2ws2.row(6).level = 2ws2.row(7).level = 2ws2.row(8).level = 1ws2.row(9).level = 1ws2.col(1).level = 1ws2.col(2).level = 1ws2.col(3).level = 2ws2.col(4).level = 2ws2.col(5).level = 2ws2.col(6).level = 2ws2.col(7).level = 2ws2.col(8).level = 1ws2.col(9).level = 1ws0.protect = True ws0.wnd_protect = True ws0.obj_protect = True ws0.scen_protect = True ws0.password = "123456"ws1.protect = True ws1.wnd_protect = True ws1.obj_protect = True ws1.scen_protect = True ws1.password = "abcdefghij"ws2.protect = True ws2.wnd_protect = True ws2.obj_protect = True ws2.scen_protect = True ws2.password = "ok"wb.protect = True wb.wnd_protect = True wb.obj_protect = True wb.save('protection.xls')from xlwt import Workbookfrom xlwt.BIFFRecords import PanesRecord w = Workbook()# do each of the 4 scenarios with each of the 4 possible# active pane settingsfor px,py in ( (0,0), # no split(0,10), # horizontal split(10,0), # vertical split(10,10), # both split ): for active in range(4):# 0 - logical bottom-right pane# 1 - logical top-right pane# 2 - logical bottom-left pane# 3 - logical top-left pane# only set valid values:if active not in PanesRecord.valid_active_pane.get( (int(px > 0),int(py > 0)) ):continuesheet = w.add_sheet('px-%i py-%i active-%i' %( px,py,active ))for rx in range(20):for cx in range(20): sheet.write(rx,cx,'R%iC%i'%(rx,cx)) sheet.panes_frozen = False sheet.vert_split_pos = px * 8.43sheet.horz_split_pos = py * 12.75sheet.active_pane = active w.save('panes3.xls')import xlwt w = xlwt.Workbook() sheets = [w.add_sheet('sheet ' + str(sheetx+1)) for sheetx in range(7)] ws1, ws2, ws3, ws4, ws5, ws6, ws7 = sheetsfor sheet in sheets:for i in range(0x100): sheet.write(i // 0x10, i % 0x10, i) H = 1V = 2HF = H + 2VF = V + 2ws1.panes_frozen = True ws1.horz_split_pos = H ws1.horz_split_first_visible = HF ws2.panes_frozen = True ws2.vert_split_pos = V ws2.vert_split_first_visible = VF ws3.panes_frozen = True ws3.horz_split_pos = H ws3.vert_split_pos = V ws3.horz_split_first_visible = HF ws3.vert_split_first_visible = VF H = 10V = 12HF = H + 2VF = V + 2ws4.panes_frozen = False ws4.horz_split_pos = H * 12.75 # rowsws4.horz_split_first_visible = HF ws5.panes_frozen = False ws5.vert_split_pos = V * 8.43 # rowsws5.vert_split_first_visible = VF ws6.panes_frozen = False ws6.horz_split_pos = H * 12.75 # rowsws6.horz_split_first_visible = HF ws6.vert_split_pos = V * 8.43 # colsws6.vert_split_first_visible = VF ws7.split_position_units_are_twips = True ws7.panes_frozen = False ws7.horz_split_pos = H * 250 + 240 # twipsws7.horz_split_first_visible = HF ws7.vert_split_pos = V * 955 + 410 # twipsws7.vert_split_first_visible = VF w.save('panes2.xls')from xlwt import *wb = Workbook() ws0 = wb.add_sheet('sheet0') fnt1 = Font() fnt1.name = 'Verdana'fnt1.bold = True fnt1.height = 18*0x14pat1 = Pattern() pat1.pattern = Pattern.SOLID_PATTERN pat1.pattern_fore_colour = 0x16brd1 = Borders() brd1.left = 0x06brd1.right = 0x06brd1.top = 0x06brd1.bottom = 0x06fnt2 = Font() fnt2.name = 'Verdana'fnt2.bold = True fnt2.height = 14*0x14brd2 = Borders() brd2.left = 0x01brd2.right = 0x01brd2.top = 0x01brd2.bottom = 0x01pat2 = Pattern() pat2.pattern = Pattern.SOLID_PATTERN pat2.pattern_fore_colour = 0x01Ffnt3 = Font() fnt3.name = 'Verdana'fnt3.bold = True fnt3.italic = True fnt3.height = 12*0x14brd3 = Borders() brd3.left = 0x07brd3.right = 0x07brd3.top = 0x07brd3.bottom = 0x07fnt4 = Font() al1 = Alignment() al1.horz = Alignment.HORZ_CENTER al1.vert = Alignment.VERT_CENTER al2 = Alignment() al2.horz = Alignment.HORZ_RIGHT al2.vert = Alignment.VERT_CENTER al3 = Alignment() al3.horz = Alignment.HORZ_LEFT al3.vert = Alignment.VERT_CENTER style1 = XFStyle() style1.font = fnt1 style1.alignment = al1 style1.pattern = pat1 style1.borders = brd1 style2 = XFStyle() style2.font = fnt2 style2.alignment = al1 style2.pattern = pat2 style2.borders = brd2 style3 = XFStyle() style3.font = fnt3 style3.alignment = al1 style3.pattern = pat2 style3.borders = brd3 price_style = XFStyle() price_style.font = fnt4 price_style.alignment = al2 price_style.borders = brd3 price_style.num_format_str = '_(#,##0.00_) "money"'ware_style = XFStyle() ware_style.font = fnt4 ware_style.alignment = al3 ware_style.borders = brd3 ws0.merge(3, 3, 1, 5, style1) ws0.merge(4, 10, 1, 6, style2) ws0.merge(14, 16, 1, 7, style3) ws0.col(1).width = 0x0d00wb.save('merged1.xls')from xlwt import *w = Workbook() ws = w.add_sheet('Hey, Dude') fmts = ['general','0','0.00','#,##0','#,##0.00','"$"#,##0_);("$"#,##','"$"#,##0_);[Red]("$"#,##','"$"#,##0.00_);("$"#,##','"$"#,##0.00_);[Red]("$"#,##','0%','0.00%','0.00E+00','# ?/?','# ??/??','M/D/YY','D-MMM-YY','D-MMM','MMM-YY','h:mm AM/PM','h:mm:ss AM/PM','h:mm','h:mm:ss','M/D/YY h:mm','_(#,##0_);(#,##0)','_(#,##0_);[Red](#,##0)','_(#,##0.00_);(#,##0.00)','_(#,##0.00_);[Red](#,##0.00)','_("$"* #,##0_);_("$"* (#,##0);_("$"* "-"_);_(@_)','_(* #,##0_);_(* (#,##0);_(* "-"_);_(@_)','_("$"* #,##0.00_);_("$"* (#,##0.00);_("$"* "-"??_);_(@_)','_(* #,##0.00_);_(* (#,##0.00);_(* "-"??_);_(@_)','mm:ss','[h]:mm:ss','mm:ss.0','##0.0E+0','@' ] i = 0for fmt in fmts: ws.write(i, 0, fmt) style = XFStyle() style.num_format_str = fmt ws.write(i, 4, -1278.9078, style) i += 1w.save('num_formats.xls')
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