// Copyright 2017 Baliance. All rights reserved. // // Use of this source code is governed by the terms of the Affero GNU General // Public License version 3.0 as published by the Free Software Foundation and // appearing in the file LICENSE included in the packaging of this file. A // commercial license can be purchased by contacting sales@baliance.com. package math import ( "encoding/xml" "fmt" "log" ) type CT_OMathArg struct { ArgPr *CT_OMathArgPr EG_OMathMathElements []*EG_OMathMathElements CtrlPr *CT_CtrlPr } func NewCT_OMathArg() *CT_OMathArg { ret := &CT_OMathArg{} return ret } func (m *CT_OMathArg) MarshalXML(e *xml.Encoder, start xml.StartElement) error { if m == nil { return nil } e.EncodeToken(start) start.Attr = nil if m.ArgPr != nil { seargPr := xml.StartElement{Name: xml.Name{Local: "m:argPr"}} e.EncodeElement(m.ArgPr, seargPr) } if m.EG_OMathMathElements != nil { for _, c := range m.EG_OMathMathElements { c.MarshalXML(e, start) } } if m.CtrlPr != nil { sectrlPr := xml.StartElement{Name: xml.Name{Local: "m:ctrlPr"}} e.EncodeElement(m.CtrlPr, sectrlPr) } e.EncodeToken(xml.EndElement{Name: start.Name}) return nil } func (m *CT_OMathArg) UnmarshalXML(d *xml.Decoder, start xml.StartElement) error { // initialize to default lCT_OMathArg: for { tok, err := d.Token() if err != nil { return err } switch el := tok.(type) { case xml.StartElement: switch el.Name.Local { case "argPr": m.ArgPr = NewCT_OMathArgPr() if err := d.DecodeElement(m.ArgPr, &el); err != nil { return err } case "acc": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.Acc = NewCT_Acc() if err := d.DecodeElement(tmpomathmathelements.Acc, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "bar": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.Bar = NewCT_Bar() if err := d.DecodeElement(tmpomathmathelements.Bar, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "box": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.Box = NewCT_Box() if err := d.DecodeElement(tmpomathmathelements.Box, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "borderBox": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.BorderBox = NewCT_BorderBox() if err := d.DecodeElement(tmpomathmathelements.BorderBox, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "d": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.D = NewCT_D() if err := d.DecodeElement(tmpomathmathelements.D, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "eqArr": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.EqArr = NewCT_EqArr() if err := d.DecodeElement(tmpomathmathelements.EqArr, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "f": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.F = NewCT_F() if err := d.DecodeElement(tmpomathmathelements.F, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "func": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.Func = NewCT_Func() if err := d.DecodeElement(tmpomathmathelements.Func, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "groupChr": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.GroupChr = NewCT_GroupChr() if err := d.DecodeElement(tmpomathmathelements.GroupChr, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "limLow": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.LimLow = NewCT_LimLow() if err := d.DecodeElement(tmpomathmathelements.LimLow, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "limUpp": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.LimUpp = NewCT_LimUpp() if err := d.DecodeElement(tmpomathmathelements.LimUpp, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "m": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.M = NewCT_M() if err := d.DecodeElement(tmpomathmathelements.M, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "nary": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.Nary = NewCT_Nary() if err := d.DecodeElement(tmpomathmathelements.Nary, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "phant": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.Phant = NewCT_Phant() if err := d.DecodeElement(tmpomathmathelements.Phant, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "rad": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.Rad = NewCT_Rad() if err := d.DecodeElement(tmpomathmathelements.Rad, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "sPre": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.SPre = NewCT_SPre() if err := d.DecodeElement(tmpomathmathelements.SPre, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "sSub": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.SSub = NewCT_SSub() if err := d.DecodeElement(tmpomathmathelements.SSub, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "sSubSup": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.SSubSup = NewCT_SSubSup() if err := d.DecodeElement(tmpomathmathelements.SSubSup, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "sSup": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.SSup = NewCT_SSup() if err := d.DecodeElement(tmpomathmathelements.SSup, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "r": tmpomathmathelements := NewEG_OMathMathElements() tmpomathmathelements.R = NewCT_R() if err := d.DecodeElement(tmpomathmathelements.R, &el); err != nil { return err } m.EG_OMathMathElements = append(m.EG_OMathMathElements, tmpomathmathelements) case "ctrlPr": m.CtrlPr = NewCT_CtrlPr() if err := d.DecodeElement(m.CtrlPr, &el); err != nil { return err } default: log.Printf("skipping unsupported element %v", el.Name) if err := d.Skip(); err != nil { return err } } case xml.EndElement: break lCT_OMathArg case xml.CharData: } } return nil } func (m *CT_OMathArg) Validate() error { return m.ValidateWithPath("CT_OMathArg") } func (m *CT_OMathArg) ValidateWithPath(path string) error { if m.ArgPr != nil { if err := m.ArgPr.ValidateWithPath(path + "/ArgPr"); err != nil { return err } } for i, v := range m.EG_OMathMathElements { if err := v.ValidateWithPath(fmt.Sprintf("%s/EG_OMathMathElements[%d]", path, i)); err != nil { return err } } if m.CtrlPr != nil { if err := m.CtrlPr.ValidateWithPath(path + "/CtrlPr"); err != nil { return err } } return nil }