// Copyright 2016 - 2020 The excelize Authors. All rights reserved. Use of // this source code is governed by a BSD-style license that can be found in // the LICENSE file. // // Package excelize providing a set of functions that allow you to write to // and read from XLSX / XLSM / XLTM files. Supports reading and writing // spreadsheet documents generated by Microsoft Exce™ 2007 and later. Supports // complex components by high compatibility, and provided streaming API for // generating or reading data from a worksheet with huge amounts of data. This // library needs Go version 1.10 or later. package excelize import ( "encoding/xml" "strings" ) // xlsxSST directly maps the sst element from the namespace // http://schemas.openxmlformats.org/spreadsheetml/2006/main. String values may // be stored directly inside spreadsheet cell elements; however, storing the // same value inside multiple cell elements can result in very large worksheet // Parts, possibly resulting in performance degradation. The Shared String Table // is an indexed list of string values, shared across the workbook, which allows // implementations to store values only once. type xlsxSST struct { XMLName xml.Name `xml:"http://schemas.openxmlformats.org/spreadsheetml/2006/main sst"` Count int `xml:"count,attr"` UniqueCount int `xml:"uniqueCount,attr"` SI []xlsxSI `xml:"si"` } // xlsxSI (String Item) is the representation of an individual string in the // Shared String table. If the string is just a simple string with formatting // applied at the cell level, then the String Item (si) should contain a // single text element used to express the string. However, if the string in // the cell is more complex - i.e., has formatting applied at the character // level - then the string item shall consist of multiple rich text runs which // collectively are used to express the string. type xlsxSI struct { T *xlsxT `xml:"t,omitempty"` R []xlsxR `xml:"r"` RPh []*xlsxPhoneticRun `xml:"rPh"` PhoneticPr *xlsxPhoneticPr `xml:"phoneticPr"` } // String extracts characters from a string item. func (x xlsxSI) String() string { if len(x.R) > 0 { var rows strings.Builder for _, s := range x.R { if s.T != nil { rows.WriteString(s.T.Val) } } return rows.String() } if x.T != nil { return x.T.Val } return "" } // xlsxR represents a run of rich text. A rich text run is a region of text // that share a common set of properties, such as formatting properties. The // properties are defined in the rPr element, and the text displayed to the // user is defined in the Text (t) element. type xlsxR struct { RPr *xlsxRPr `xml:"rPr"` T *xlsxT `xml:"t"` } // xlsxT directly maps the t element in the run properties. type xlsxT struct { XMLName xml.Name `xml:"t"` Space xml.Attr `xml:"space,attr,omitempty"` Val string `xml:",chardata"` } // xlsxRPr (Run Properties) specifies a set of run properties which shall be // applied to the contents of the parent run after all style formatting has been // applied to the text. These properties are defined as direct formatting, since // they are directly applied to the run and supersede any formatting from // styles. type xlsxRPr struct { RFont *attrValString `xml:"rFont"` Charset *attrValInt `xml:"charset"` Family *attrValInt `xml:"family"` B string `xml:"b,omitempty"` I string `xml:"i,omitempty"` Strike string `xml:"strike,omitempty"` Outline string `xml:"outline,omitempty"` Shadow string `xml:"shadow,omitempty"` Condense string `xml:"condense,omitempty"` Extend string `xml:"extend,omitempty"` Color *xlsxColor `xml:"color"` Sz *attrValFloat `xml:"sz"` U *attrValString `xml:"u"` VertAlign *attrValString `xml:"vertAlign"` Scheme *attrValString `xml:"scheme"` } // RichTextRun directly maps the settings of the rich text run. type RichTextRun struct { Font *Font Text string }