// Format writes data to formatter.
func (p *Point) Format(f format.Formatter) {
p.entity.Format(f)
f.WriteString(100, "AcDbPoint")
for i := 0; i < 3; i++ {
f.WriteFloat((i+1)*10, p.Coord[i])
}
}
// WriteTo writes CLASSES data to formatter.
func (cs Classes) WriteTo(f format.Formatter) {
f.WriteString(0, "SECTION")
f.WriteString(2, "CLASSES")
for _, c := range cs {
c.Format(f)
}
f.WriteString(0, "ENDSEC")
}
// WriteTo writes OBJECTS data to formatter.
func (os Objects) WriteTo(f format.Formatter) {
f.WriteString(0, "SECTION")
f.WriteString(2, "OBJECTS")
for _, o := range os {
o.Format(f)
}
f.WriteString(0, "ENDSEC")
}
// Format writes data to formatter.
func (l *LwPolyline) Format(f format.Formatter) {
l.entity.Format(f)
f.WriteString(100, "AcDbPolyline")
f.WriteInt(90, l.Num)
if l.Closed {
f.WriteInt(70, 1)
} else {
f.WriteInt(70, 0)
}
for i := 0; i < l.Num; i++ {
for j := 0; j < 2; j++ {
f.WriteFloat((j+1)*10, l.Vertices[i][j])
}
}
}
// Format writes data to formatter.
func (v *Vertex) Format(f format.Formatter) {
v.entity.Format(f)
f.WriteString(100, "AcDbVertex")
f.WriteString(100, "AcDb3dPolylineVertex")
for i := 0; i < 3; i++ {
f.WriteFloat((i+1)*10, v.Coord[i])
}
f.WriteInt(70, v.Flag)
}
// Format writes data to formatter.
func (c *Circle) Format(f format.Formatter) {
c.entity.Format(f)
f.WriteString(100, "AcDbCircle")
for i := 0; i < 3; i++ {
f.WriteFloat((i+1)*10, c.Center[i])
}
f.WriteFloat(40, c.Radius)
for i := 0; i < 3; i++ {
f.WriteFloat(200+(i+1)*10, c.Direction[i])
}
}
// WriteTo writes TABLES data to formatter.
func (ts Tables) WriteTo(f format.Formatter) {
f.WriteString(0, "SECTION")
f.WriteString(2, "TABLES")
for _, t := range ts {
t.Format(f)
}
f.WriteString(0, "ENDSEC")
}
// WriteTo writes BLOCKS data to formatter.
func (bs Blocks) WriteTo(f format.Formatter) {
f.WriteString(0, "SECTION")
f.WriteString(2, "BLOCKS")
for _, b := range bs {
b.Format(f)
}
f.WriteString(0, "ENDSEC")
}
// WriteTo writes ENTITIES data to formatter.
func (es Entities) WriteTo(f format.Formatter) {
f.WriteString(0, "SECTION")
f.WriteString(2, "ENTITIES")
for _, e := range es {
e.Format(f)
}
f.WriteString(0, "ENDSEC")
}
// Format writes data to formatter.
func (l *Line) Format(f format.Formatter) {
l.entity.Format(f)
f.WriteString(100, "AcDbLine")
for i := 0; i < 3; i++ {
f.WriteFloat((i+1)*10, l.Start[i])
}
for i := 0; i < 3; i++ {
f.WriteFloat((i+1)*10+1, l.End[i])
}
}
// Format writes data to formatter.
func (f *ThreeDFace) Format(fm format.Formatter) {
f.entity.Format(fm)
fm.WriteString(100, "AcDbFace")
for i := 0; i < 4; i++ {
for j := 0; j < 3; j++ {
fm.WriteFloat((j+1)*10+i, f.Points[i][j])
}
}
if f.Flag != 0 {
fm.WriteInt(70, f.Flag)
}
}
// Format writes data to formatter.
func (c *Class) Format(f format.Formatter) {
f.WriteString(0, "CLASS")
}
// FormatString outputs data using given formatter.
func (t *Text) FormatString(f format.Formatter) string {
t.Format(f)
return f.Output()
}
// Format writes data to formatter.
func (t *Text) Format(f format.Formatter) {
t.entity.Format(f)
f.WriteString(100, "AcDbText")
for i := 0; i < 3; i++ {
f.WriteFloat((i+1)*10, t.Coord1[i])
}
f.WriteFloat(40, t.Height)
f.WriteString(1, t.Value)
f.WriteString(7, t.Style.Name())
if t.genflag != 0 {
f.WriteInt(71, t.genflag)
}
if t.horizontalflag != 0 {
f.WriteInt(72, t.horizontalflag)
if t.verticalflag != 0 {
for i := 0; i < 3; i++ {
f.WriteFloat((i+1)*11, t.Coord1[i])
}
}
}
f.WriteString(100, "AcDbText")
if t.verticalflag != 0 {
f.WriteInt(73, t.verticalflag)
}
}
// FormatString outputs data using given formatter.
func (f *ThreeDFace) FormatString(fm format.Formatter) string {
f.Format(fm)
return fm.Output()
}
// Format writes data to formatter.
func (d *DimStyle) Format(f format.Formatter) {
f.WriteString(0, "DIMSTYLE")
f.WriteHex(105, d.handle)
if d.owner != nil {
f.WriteHex(330, d.owner.Handle())
}
f.WriteString(100, "AcDbSymbolTableRecord")
f.WriteString(100, "AcDbDimStyleTableRecord")
f.WriteString(2, d.name)
f.WriteInt(70, 0)
}
// FormatString outputs data using given formatter.
func (g *Group) FormatString(f format.Formatter) string {
g.Format(f)
return f.Output()
}
// Format writes data to formatter.
func (v *Viewport) Format(f format.Formatter) {
f.WriteString(0, "VPORT")
f.WriteHex(5, v.handle)
if v.owner != nil {
f.WriteHex(330, v.owner.Handle())
}
f.WriteString(100, "AcDbSymbolTableRecord")
f.WriteString(100, "AcDbViewportTableRecord")
f.WriteString(2, v.name)
f.WriteInt(70, 0)
for i := 0; i < 2; i++ {
f.WriteFloat((i+1)*10, v.LowerLeft[i])
}
for i := 0; i < 2; i++ {
f.WriteFloat((i+1)*10+1, v.UpperRight[i])
}
for i := 0; i < 2; i++ {
f.WriteFloat((i+1)*10+2, v.ViewCenter[i])
}
for i := 0; i < 2; i++ {
f.WriteFloat((i+1)*10+3, v.SnapBase[i])
}
for i := 0; i < 2; i++ {
f.WriteFloat((i+1)*10+4, v.SnapSpacing[i])
}
for i := 0; i < 2; i++ {
f.WriteFloat((i+1)*10+5, v.GridSpacing[i])
}
for i := 0; i < 3; i++ {
f.WriteFloat((i+1)*10+6, v.ViewDirection[i])
}
for i := 0; i < 3; i++ {
f.WriteFloat((i+1)*10+7, v.ViewTarget[i])
}
f.WriteFloat(40, v.Height)
f.WriteFloat(41, v.AspectRatio)
f.WriteFloat(42, v.LensLength)
f.WriteFloat(43, v.FrontClip)
f.WriteFloat(44, v.BackClip)
f.WriteFloat(50, v.SnapAngle)
f.WriteFloat(51, v.TwistAngle)
}
// FormatString outputs data using given formatter.
func (st *Style) FormatString(f format.Formatter) string {
st.Format(f)
return f.Output()
}
// FormatString outputs data using given formatter.
func (lt *LineType) FormatString(f format.Formatter) string {
lt.Format(f)
return f.Output()
}
// Format writes data to formatter.
func (lt *LineType) Format(f format.Formatter) {
f.WriteString(0, "LTYPE")
f.WriteHex(5, lt.handle)
if lt.owner != nil {
f.WriteHex(330, lt.owner.Handle())
}
f.WriteString(100, "AcDbSymbolTableRecord")
f.WriteString(100, "AcDbLinetypeTableRecord")
f.WriteString(2, lt.name)
f.WriteInt(70, 0)
f.WriteString(3, lt.Description)
f.WriteInt(72, 65)
f.WriteInt(73, len(lt.lengths))
f.WriteFloat(40, lt.TotalLength())
for _, l := range lt.lengths {
f.WriteFloat(49, l)
f.WriteInt(74, 0)
}
}
// FormatString outputs data using given formatter.
func (d *DimStyle) FormatString(f format.Formatter) string {
d.Format(f)
return f.Output()
}
// FormatString outputs data using given formatter.
func (c *Class) FormatString(f format.Formatter) string {
c.Format(f)
return f.Output()
}
// Format writes data to formatter.
func (e *entity) Format(f format.Formatter) {
f.WriteString(0, EntityTypeString(e.Type))
f.WriteHex(5, e.handle)
if e.blockRecord != nil {
f.WriteString(102, "{ACAD_REACTORS")
f.WriteHex(330, e.blockRecord.Handle())
f.WriteString(102, "}")
}
if e.owner != nil {
f.WriteHex(330, e.owner.Handle())
}
f.WriteString(100, "AcDbEntity")
f.WriteString(8, e.layer.Name())
}
// Format writes data to formatter.
func (st *Style) Format(f format.Formatter) {
f.WriteString(0, "STYLE")
f.WriteHex(5, st.handle)
if st.owner != nil {
f.WriteHex(330, st.owner.Handle())
}
f.WriteString(100, "AcDbSymbolTableRecord")
f.WriteString(100, "AcDbTextStyleTableRecord")
f.WriteString(2, st.name)
f.WriteInt(70, 0)
f.WriteString(40, "0.0")
f.WriteString(41, "1.0")
f.WriteString(50, "0.0")
f.WriteInt(71, 0)
f.WriteString(42, "0.2")
f.WriteString(3, st.FontName)
f.WriteString(4, st.BigFontName)
}
// FormatString outputs data using given formatter.
func (e *entity) FormatString(f format.Formatter) string {
e.Format(f)
return f.Output()
}
// FormatString outputs data using given formatter.
func (p *Point) FormatString(f format.Formatter) string {
p.Format(f)
return f.Output()
}
// Format writes data to formatter.
func (p *Polyline) Format(f format.Formatter) {
p.entity.Format(f)
f.WriteString(100, "AcDb3dPolyline")
f.WriteInt(66, 1)
f.WriteString(10, "0.0")
f.WriteString(20, "0.0")
f.WriteString(30, "0.0")
f.WriteInt(70, p.Flag)
for _, v := range p.Vertices {
v.Format(f)
}
f.WriteString(0, "SEQEND")
f.WriteHex(5, p.endhandle)
f.WriteString(100, "AcDbEntity")
f.WriteString(8, p.Layer().Name())
}
// FormatString outputs data using given formatter.
func (l *LwPolyline) FormatString(f format.Formatter) string {
l.Format(f)
return f.Output()
}
// FormatString outputs data using given formatter.
func (v *Viewport) FormatString(f format.Formatter) string {
v.Format(f)
return f.Output()
}