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drawing.go
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drawing.go
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// Copyright 2016 - 2024 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 XLAM / XLSM / XLSX / XLTM / XLTX files. Supports reading and
// writing spreadsheet documents generated by Microsoft Excel™ 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 1.18 or later.
package excelize
import (
"bytes"
"encoding/xml"
"io"
"reflect"
"strconv"
"strings"
)
// prepareDrawing provides a function to prepare drawing ID and XML by given
// drawingID, worksheet name and default drawingXML.
func (f *File) prepareDrawing(ws *xlsxWorksheet, drawingID int, sheet, drawingXML string) (int, string) {
sheetRelationshipsDrawingXML := "../drawings/drawing" + strconv.Itoa(drawingID) + ".xml"
if ws.Drawing != nil {
// The worksheet already has a picture or chart relationships, use the
// relationships drawing ../drawings/drawing%d.xml or /xl/drawings/drawing%d.xml.
sheetRelationshipsDrawingXML = strings.ReplaceAll(f.getSheetRelationshipsTargetByID(sheet, ws.Drawing.RID), "/xl/drawings/", "../drawings/")
drawingID, _ = strconv.Atoi(strings.TrimSuffix(strings.TrimPrefix(sheetRelationshipsDrawingXML, "../drawings/drawing"), ".xml"))
drawingXML = strings.ReplaceAll(sheetRelationshipsDrawingXML, "..", "xl")
} else {
// Add first picture for given sheet.
sheetXMLPath, _ := f.getSheetXMLPath(sheet)
sheetRels := "xl/worksheets/_rels/" + strings.TrimPrefix(sheetXMLPath, "xl/worksheets/") + ".rels"
rID := f.addRels(sheetRels, SourceRelationshipDrawingML, sheetRelationshipsDrawingXML, "")
f.addSheetDrawing(sheet, rID)
}
return drawingID, drawingXML
}
// prepareChartSheetDrawing provides a function to prepare drawing ID and XML
// by given drawingID, worksheet name and default drawingXML.
func (f *File) prepareChartSheetDrawing(cs *xlsxChartsheet, drawingID int, sheet string) {
sheetRelationshipsDrawingXML := "../drawings/drawing" + strconv.Itoa(drawingID) + ".xml"
// Only allow one chart in a chartsheet.
sheetXMLPath, _ := f.getSheetXMLPath(sheet)
sheetRels := "xl/chartsheets/_rels/" + strings.TrimPrefix(sheetXMLPath, "xl/chartsheets/") + ".rels"
rID := f.addRels(sheetRels, SourceRelationshipDrawingML, sheetRelationshipsDrawingXML, "")
f.addSheetNameSpace(sheet, SourceRelationship)
cs.Drawing = &xlsxDrawing{
RID: "rId" + strconv.Itoa(rID),
}
}
// addChart provides a function to create chart as xl/charts/chart%d.xml by
// given format sets.
func (f *File) addChart(opts *Chart, comboCharts []*Chart) {
count := f.countCharts()
xlsxChartSpace := xlsxChartSpace{
XMLNSa: NameSpaceDrawingML.Value,
Date1904: &attrValBool{Val: boolPtr(false)},
Lang: &attrValString{Val: stringPtr("en-US")},
RoundedCorners: &attrValBool{Val: boolPtr(false)},
Chart: cChart{
Title: f.drawPlotAreaTitles(opts.Title, ""),
View3D: &cView3D{
RotX: &attrValInt{Val: intPtr(chartView3DRotX[opts.Type])},
RotY: &attrValInt{Val: intPtr(chartView3DRotY[opts.Type])},
Perspective: &attrValInt{Val: intPtr(chartView3DPerspective[opts.Type])},
RAngAx: &attrValInt{Val: intPtr(chartView3DRAngAx[opts.Type])},
},
Floor: &cThicknessSpPr{
Thickness: &attrValInt{Val: intPtr(0)},
},
SideWall: &cThicknessSpPr{
Thickness: &attrValInt{Val: intPtr(0)},
},
BackWall: &cThicknessSpPr{
Thickness: &attrValInt{Val: intPtr(0)},
},
PlotArea: &cPlotArea{},
Legend: &cLegend{
LegendPos: &attrValString{Val: stringPtr(chartLegendPosition[opts.Legend.Position])},
Overlay: &attrValBool{Val: boolPtr(false)},
},
PlotVisOnly: &attrValBool{Val: boolPtr(false)},
DispBlanksAs: &attrValString{Val: stringPtr(opts.ShowBlanksAs)},
ShowDLblsOverMax: &attrValBool{Val: boolPtr(false)},
},
SpPr: &cSpPr{
SolidFill: &aSolidFill{
SchemeClr: &aSchemeClr{Val: "bg1"},
},
Ln: f.drawChartLn(&opts.Border),
},
PrintSettings: &cPrintSettings{
PageMargins: &cPageMargins{
B: 0.75,
L: 0.7,
R: 0.7,
T: 0.7,
Header: 0.3,
Footer: 0.3,
},
},
}
xlsxChartSpace.SpPr = f.drawShapeFill(opts.Fill, xlsxChartSpace.SpPr)
plotAreaFunc := map[ChartType]func(pa *cPlotArea, opts *Chart) *cPlotArea{
Area: f.drawBaseChart,
AreaStacked: f.drawBaseChart,
AreaPercentStacked: f.drawBaseChart,
Area3D: f.drawBaseChart,
Area3DStacked: f.drawBaseChart,
Area3DPercentStacked: f.drawBaseChart,
Bar: f.drawBaseChart,
BarStacked: f.drawBaseChart,
BarPercentStacked: f.drawBaseChart,
Bar3DClustered: f.drawBaseChart,
Bar3DStacked: f.drawBaseChart,
Bar3DPercentStacked: f.drawBaseChart,
Bar3DConeClustered: f.drawBaseChart,
Bar3DConeStacked: f.drawBaseChart,
Bar3DConePercentStacked: f.drawBaseChart,
Bar3DPyramidClustered: f.drawBaseChart,
Bar3DPyramidStacked: f.drawBaseChart,
Bar3DPyramidPercentStacked: f.drawBaseChart,
Bar3DCylinderClustered: f.drawBaseChart,
Bar3DCylinderStacked: f.drawBaseChart,
Bar3DCylinderPercentStacked: f.drawBaseChart,
Col: f.drawBaseChart,
ColStacked: f.drawBaseChart,
ColPercentStacked: f.drawBaseChart,
Col3D: f.drawBaseChart,
Col3DClustered: f.drawBaseChart,
Col3DStacked: f.drawBaseChart,
Col3DPercentStacked: f.drawBaseChart,
Col3DCone: f.drawBaseChart,
Col3DConeClustered: f.drawBaseChart,
Col3DConeStacked: f.drawBaseChart,
Col3DConePercentStacked: f.drawBaseChart,
Col3DPyramid: f.drawBaseChart,
Col3DPyramidClustered: f.drawBaseChart,
Col3DPyramidStacked: f.drawBaseChart,
Col3DPyramidPercentStacked: f.drawBaseChart,
Col3DCylinder: f.drawBaseChart,
Col3DCylinderClustered: f.drawBaseChart,
Col3DCylinderStacked: f.drawBaseChart,
Col3DCylinderPercentStacked: f.drawBaseChart,
Doughnut: f.drawDoughnutChart,
Line: f.drawLineChart,
Line3D: f.drawLine3DChart,
Pie: f.drawPieChart,
Pie3D: f.drawPie3DChart,
PieOfPie: f.drawPieOfPieChart,
BarOfPie: f.drawBarOfPieChart,
Radar: f.drawRadarChart,
Scatter: f.drawScatterChart,
Surface3D: f.drawSurface3DChart,
WireframeSurface3D: f.drawSurface3DChart,
Contour: f.drawSurfaceChart,
WireframeContour: f.drawSurfaceChart,
Bubble: f.drawBubbleChart,
Bubble3D: f.drawBubbleChart,
}
if opts.Legend.Position == "none" {
xlsxChartSpace.Chart.Legend = nil
}
xlsxChartSpace.Chart.PlotArea.SpPr = f.drawShapeFill(opts.PlotArea.Fill, xlsxChartSpace.Chart.PlotArea.SpPr)
addChart := func(c, p *cPlotArea) {
immutable, mutable := reflect.ValueOf(c).Elem(), reflect.ValueOf(p).Elem()
for i := 0; i < mutable.NumField(); i++ {
field := mutable.Field(i)
if field.IsNil() {
continue
}
fld := immutable.FieldByName(mutable.Type().Field(i).Name)
if field.Kind() == reflect.Slice && i < 16 { // All []*cCharts type fields
fld.Set(reflect.Append(fld, field.Index(0)))
continue
}
fld.Set(field)
}
}
addChart(xlsxChartSpace.Chart.PlotArea, plotAreaFunc[opts.Type](xlsxChartSpace.Chart.PlotArea, opts))
order := len(opts.Series)
for idx := range comboCharts {
comboCharts[idx].order = order
addChart(xlsxChartSpace.Chart.PlotArea, plotAreaFunc[comboCharts[idx].Type](xlsxChartSpace.Chart.PlotArea, comboCharts[idx]))
order += len(comboCharts[idx].Series)
}
chart, _ := xml.Marshal(xlsxChartSpace)
media := "xl/charts/chart" + strconv.Itoa(count+1) + ".xml"
f.saveFileList(media, chart)
}
// drawBaseChart provides a function to draw the c:plotArea element for bar,
// and column series charts by given format sets.
func (f *File) drawBaseChart(pa *cPlotArea, opts *Chart) *cPlotArea {
c := []*cCharts{
{
BarDir: &attrValString{
Val: stringPtr("col"),
},
Grouping: &attrValString{
Val: stringPtr(plotAreaChartGrouping[opts.Type]),
},
VaryColors: &attrValBool{
Val: opts.VaryColors,
},
Ser: f.drawChartSeries(opts),
Shape: f.drawChartShape(opts),
DLbls: f.drawChartDLbls(opts),
AxID: f.genAxID(opts),
Overlap: &attrValInt{Val: intPtr(100)},
},
}
var ok bool
if *c[0].BarDir.Val, ok = plotAreaChartBarDir[opts.Type]; !ok {
c[0].BarDir = nil
}
if *c[0].Overlap.Val, ok = plotAreaChartOverlap[opts.Type]; !ok {
c[0].Overlap = nil
}
catAx := f.drawPlotAreaCatAx(pa, opts)
valAx := f.drawPlotAreaValAx(pa, opts)
charts := map[ChartType]*cPlotArea{
Area: {
AreaChart: c,
CatAx: catAx,
ValAx: valAx,
},
AreaStacked: {
AreaChart: c,
CatAx: catAx,
ValAx: valAx,
},
AreaPercentStacked: {
AreaChart: c,
CatAx: catAx,
ValAx: valAx,
},
Area3D: {
Area3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Area3DStacked: {
Area3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Area3DPercentStacked: {
Area3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bar: {
BarChart: c,
CatAx: catAx,
ValAx: valAx,
},
BarStacked: {
BarChart: c,
CatAx: catAx,
ValAx: valAx,
},
BarPercentStacked: {
BarChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bar3DClustered: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bar3DStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bar3DPercentStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bar3DConeClustered: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bar3DConeStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bar3DConePercentStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bar3DPyramidClustered: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bar3DPyramidStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bar3DPyramidPercentStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bar3DCylinderClustered: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bar3DCylinderStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bar3DCylinderPercentStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col: {
BarChart: c,
CatAx: catAx,
ValAx: valAx,
},
ColStacked: {
BarChart: c,
CatAx: catAx,
ValAx: valAx,
},
ColPercentStacked: {
BarChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3D: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DClustered: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DPercentStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DCone: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DConeClustered: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DConeStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DConePercentStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DPyramid: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DPyramidClustered: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DPyramidStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DPyramidPercentStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DCylinder: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DCylinderClustered: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DCylinderStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Col3DCylinderPercentStacked: {
Bar3DChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bubble: {
BubbleChart: c,
CatAx: catAx,
ValAx: valAx,
},
Bubble3D: {
BubbleChart: c,
CatAx: catAx,
ValAx: valAx,
},
}
return charts[opts.Type]
}
// drawDoughnutChart provides a function to draw the c:plotArea element for
// doughnut chart by given format sets.
func (f *File) drawDoughnutChart(pa *cPlotArea, opts *Chart) *cPlotArea {
holeSize := 75
if opts.HoleSize > 0 && opts.HoleSize <= 90 {
holeSize = opts.HoleSize
}
return &cPlotArea{
DoughnutChart: []*cCharts{
{
VaryColors: &attrValBool{
Val: opts.VaryColors,
},
Ser: f.drawChartSeries(opts),
HoleSize: &attrValInt{Val: intPtr(holeSize)},
},
},
}
}
// drawLineChart provides a function to draw the c:plotArea element for line
// chart by given format sets.
func (f *File) drawLineChart(pa *cPlotArea, opts *Chart) *cPlotArea {
return &cPlotArea{
LineChart: []*cCharts{
{
Grouping: &attrValString{
Val: stringPtr(plotAreaChartGrouping[opts.Type]),
},
VaryColors: &attrValBool{
Val: boolPtr(false),
},
Ser: f.drawChartSeries(opts),
DLbls: f.drawChartDLbls(opts),
AxID: f.genAxID(opts),
},
},
CatAx: f.drawPlotAreaCatAx(pa, opts),
ValAx: f.drawPlotAreaValAx(pa, opts),
}
}
// drawLine3DChart provides a function to draw the c:plotArea element for line
// chart by given format sets.
func (f *File) drawLine3DChart(pa *cPlotArea, opts *Chart) *cPlotArea {
return &cPlotArea{
Line3DChart: []*cCharts{
{
Grouping: &attrValString{
Val: stringPtr(plotAreaChartGrouping[opts.Type]),
},
VaryColors: &attrValBool{
Val: boolPtr(false),
},
Ser: f.drawChartSeries(opts),
DLbls: f.drawChartDLbls(opts),
AxID: f.genAxID(opts),
},
},
CatAx: f.drawPlotAreaCatAx(pa, opts),
ValAx: f.drawPlotAreaValAx(pa, opts),
}
}
// drawPieChart provides a function to draw the c:plotArea element for pie
// chart by given format sets.
func (f *File) drawPieChart(pa *cPlotArea, opts *Chart) *cPlotArea {
return &cPlotArea{
PieChart: []*cCharts{
{
VaryColors: &attrValBool{
Val: opts.VaryColors,
},
Ser: f.drawChartSeries(opts),
},
},
}
}
// drawPie3DChart provides a function to draw the c:plotArea element for 3D
// pie chart by given format sets.
func (f *File) drawPie3DChart(pa *cPlotArea, opts *Chart) *cPlotArea {
return &cPlotArea{
Pie3DChart: []*cCharts{
{
VaryColors: &attrValBool{
Val: opts.VaryColors,
},
Ser: f.drawChartSeries(opts),
},
},
}
}
// drawPieOfPieChart provides a function to draw the c:plotArea element for
// pie chart by given format sets.
func (f *File) drawPieOfPieChart(pa *cPlotArea, opts *Chart) *cPlotArea {
var splitPos *attrValInt
if opts.PlotArea.SecondPlotValues > 0 {
splitPos = &attrValInt{Val: intPtr(opts.PlotArea.SecondPlotValues)}
}
return &cPlotArea{
OfPieChart: []*cCharts{
{
OfPieType: &attrValString{
Val: stringPtr("pie"),
},
VaryColors: &attrValBool{
Val: opts.VaryColors,
},
Ser: f.drawChartSeries(opts),
SplitPos: splitPos,
SerLines: &attrValString{},
},
},
}
}
// drawBarOfPieChart provides a function to draw the c:plotArea element for
// pie chart by given format sets.
func (f *File) drawBarOfPieChart(pa *cPlotArea, opts *Chart) *cPlotArea {
var splitPos *attrValInt
if opts.PlotArea.SecondPlotValues > 0 {
splitPos = &attrValInt{Val: intPtr(opts.PlotArea.SecondPlotValues)}
}
return &cPlotArea{
OfPieChart: []*cCharts{
{
OfPieType: &attrValString{
Val: stringPtr("bar"),
},
VaryColors: &attrValBool{
Val: opts.VaryColors,
},
SplitPos: splitPos,
Ser: f.drawChartSeries(opts),
SerLines: &attrValString{},
},
},
}
}
// drawRadarChart provides a function to draw the c:plotArea element for radar
// chart by given format sets.
func (f *File) drawRadarChart(pa *cPlotArea, opts *Chart) *cPlotArea {
return &cPlotArea{
RadarChart: []*cCharts{
{
RadarStyle: &attrValString{
Val: stringPtr("marker"),
},
VaryColors: &attrValBool{
Val: boolPtr(false),
},
Ser: f.drawChartSeries(opts),
DLbls: f.drawChartDLbls(opts),
AxID: f.genAxID(opts),
},
},
CatAx: f.drawPlotAreaCatAx(pa, opts),
ValAx: f.drawPlotAreaValAx(pa, opts),
}
}
// drawScatterChart provides a function to draw the c:plotArea element for
// scatter chart by given format sets.
func (f *File) drawScatterChart(pa *cPlotArea, opts *Chart) *cPlotArea {
return &cPlotArea{
ScatterChart: []*cCharts{
{
ScatterStyle: &attrValString{
Val: stringPtr("smoothMarker"), // line,lineMarker,marker,none,smooth,smoothMarker
},
VaryColors: &attrValBool{
Val: boolPtr(false),
},
Ser: f.drawChartSeries(opts),
DLbls: f.drawChartDLbls(opts),
AxID: f.genAxID(opts),
},
},
ValAx: append(f.drawPlotAreaCatAx(pa, opts), f.drawPlotAreaValAx(pa, opts)...),
}
}
// drawSurface3DChart provides a function to draw the c:surface3DChart element by
// given format sets.
func (f *File) drawSurface3DChart(pa *cPlotArea, opts *Chart) *cPlotArea {
plotArea := &cPlotArea{
Surface3DChart: []*cCharts{
{
Ser: f.drawChartSeries(opts),
AxID: []*attrValInt{
{Val: intPtr(100000000)},
{Val: intPtr(100000001)},
{Val: intPtr(100000005)},
},
},
},
CatAx: f.drawPlotAreaCatAx(pa, opts),
ValAx: f.drawPlotAreaValAx(pa, opts),
SerAx: f.drawPlotAreaSerAx(opts),
}
if opts.Type == WireframeSurface3D {
plotArea.Surface3DChart[0].Wireframe = &attrValBool{Val: boolPtr(true)}
}
return plotArea
}
// drawSurfaceChart provides a function to draw the c:surfaceChart element by
// given format sets.
func (f *File) drawSurfaceChart(pa *cPlotArea, opts *Chart) *cPlotArea {
plotArea := &cPlotArea{
SurfaceChart: []*cCharts{
{
Ser: f.drawChartSeries(opts),
AxID: []*attrValInt{
{Val: intPtr(100000000)},
{Val: intPtr(100000001)},
{Val: intPtr(100000005)},
},
},
},
CatAx: f.drawPlotAreaCatAx(pa, opts),
ValAx: f.drawPlotAreaValAx(pa, opts),
SerAx: f.drawPlotAreaSerAx(opts),
}
if opts.Type == WireframeContour {
plotArea.SurfaceChart[0].Wireframe = &attrValBool{Val: boolPtr(true)}
}
return plotArea
}
// drawBubbleChart provides a function to draw the c:bubbleChart element by
// given format sets.
func (f *File) drawBubbleChart(pa *cPlotArea, opts *Chart) *cPlotArea {
plotArea := &cPlotArea{
BubbleChart: []*cCharts{
{
VaryColors: &attrValBool{
Val: opts.VaryColors,
},
Ser: f.drawChartSeries(opts),
DLbls: f.drawChartDLbls(opts),
AxID: f.genAxID(opts),
},
},
ValAx: append(f.drawPlotAreaCatAx(pa, opts), f.drawPlotAreaValAx(pa, opts)...),
}
if opts.BubbleSize > 0 && opts.BubbleSize <= 300 {
plotArea.BubbleChart[0].BubbleScale = &attrValFloat{Val: float64Ptr(float64(opts.BubbleSize))}
}
return plotArea
}
// drawChartShape provides a function to draw the c:shape element by given
// format sets.
func (f *File) drawChartShape(opts *Chart) *attrValString {
shapes := map[ChartType]string{
Bar3DConeClustered: "cone",
Bar3DConeStacked: "cone",
Bar3DConePercentStacked: "cone",
Bar3DPyramidClustered: "pyramid",
Bar3DPyramidStacked: "pyramid",
Bar3DPyramidPercentStacked: "pyramid",
Bar3DCylinderClustered: "cylinder",
Bar3DCylinderStacked: "cylinder",
Bar3DCylinderPercentStacked: "cylinder",
Col3DCone: "cone",
Col3DConeClustered: "cone",
Col3DConeStacked: "cone",
Col3DConePercentStacked: "cone",
Col3DPyramid: "pyramid",
Col3DPyramidClustered: "pyramid",
Col3DPyramidStacked: "pyramid",
Col3DPyramidPercentStacked: "pyramid",
Col3DCylinder: "cylinder",
Col3DCylinderClustered: "cylinder",
Col3DCylinderStacked: "cylinder",
Col3DCylinderPercentStacked: "cylinder",
}
if shape, ok := shapes[opts.Type]; ok {
return &attrValString{Val: stringPtr(shape)}
}
return nil
}
// drawChartSeries provides a function to draw the c:ser element by given
// format sets.
func (f *File) drawChartSeries(opts *Chart) *[]cSer {
var ser []cSer
for k := range opts.Series {
ser = append(ser, cSer{
IDx: &attrValInt{Val: intPtr(k + opts.order)},
Order: &attrValInt{Val: intPtr(k + opts.order)},
Tx: &cTx{
StrRef: &cStrRef{
F: opts.Series[k].Name,
},
},
SpPr: f.drawChartSeriesSpPr(k, opts),
Marker: f.drawChartSeriesMarker(k, opts),
DPt: f.drawChartSeriesDPt(k, opts),
DLbls: f.drawChartSeriesDLbls(k, opts),
InvertIfNegative: &attrValBool{Val: boolPtr(false)},
Cat: f.drawChartSeriesCat(opts.Series[k], opts),
Smooth: &attrValBool{Val: boolPtr(opts.Series[k].Line.Smooth)},
Val: f.drawChartSeriesVal(opts.Series[k], opts),
XVal: f.drawChartSeriesXVal(opts.Series[k], opts),
YVal: f.drawChartSeriesYVal(opts.Series[k], opts),
BubbleSize: f.drawCharSeriesBubbleSize(opts.Series[k], opts),
Bubble3D: f.drawCharSeriesBubble3D(opts),
})
}
return &ser
}
// drawShapeFill provides a function to draw the a:solidFill element by given
// fill format sets.
func (f *File) drawShapeFill(fill Fill, spPr *cSpPr) *cSpPr {
if fill.Type == "pattern" && fill.Pattern == 1 {
if spPr == nil {
spPr = &cSpPr{}
}
if len(fill.Color) == 1 {
spPr.SolidFill = &aSolidFill{SrgbClr: &attrValString{Val: stringPtr(strings.TrimPrefix(fill.Color[0], "#"))}}
return spPr
}
spPr.SolidFill = nil
spPr.NoFill = stringPtr("")
}
return spPr
}
// drawChartSeriesSpPr provides a function to draw the c:spPr element by given
// format sets.
func (f *File) drawChartSeriesSpPr(i int, opts *Chart) *cSpPr {
spPr := &cSpPr{SolidFill: &aSolidFill{SchemeClr: &aSchemeClr{Val: "accent" + strconv.Itoa((opts.order+i)%6+1)}}}
spPr = f.drawShapeFill(opts.Series[i].Fill, spPr)
solid := &cSpPr{
Ln: &aLn{
W: f.ptToEMUs(opts.Series[i].Line.Width),
Cap: "rnd", // rnd, sq, flat
SolidFill: spPr.SolidFill,
},
}
noLn := &cSpPr{Ln: &aLn{NoFill: &attrValString{}}}
if chartSeriesSpPr, ok := map[ChartType]map[ChartLineType]*cSpPr{
Line: {ChartLineUnset: solid, ChartLineSolid: solid, ChartLineNone: noLn, ChartLineAutomatic: solid},
Scatter: {ChartLineUnset: noLn, ChartLineSolid: solid, ChartLineNone: noLn, ChartLineAutomatic: noLn},
}[opts.Type]; ok {
return chartSeriesSpPr[opts.Series[i].Line.Type]
}
if spPr.SolidFill.SrgbClr != nil {
return spPr
}
return nil
}
// drawChartSeriesDPt provides a function to draw the c:dPt element by given
// data index and format sets.
func (f *File) drawChartSeriesDPt(i int, opts *Chart) []*cDPt {
dpt := []*cDPt{{
IDx: &attrValInt{Val: intPtr(i)},
Bubble3D: &attrValBool{Val: boolPtr(false)},
SpPr: &cSpPr{
SolidFill: &aSolidFill{
SchemeClr: &aSchemeClr{Val: "accent" + strconv.Itoa(i+1)},
},
Ln: &aLn{
W: 25400,
Cap: "rnd",
SolidFill: &aSolidFill{
SchemeClr: &aSchemeClr{Val: "lt" + strconv.Itoa(i+1)},
},
},
Sp3D: &aSp3D{
ContourW: 25400,
ContourClr: &aContourClr{
SchemeClr: &aSchemeClr{Val: "lt" + strconv.Itoa(i+1)},
},
},
},
}}
chartSeriesDPt := map[ChartType][]*cDPt{Pie: dpt, Pie3D: dpt}
return chartSeriesDPt[opts.Type]
}
// drawChartSeriesCat provides a function to draw the c:cat element by given
// chart series and format sets.
func (f *File) drawChartSeriesCat(v ChartSeries, opts *Chart) *cCat {
cat := &cCat{
StrRef: &cStrRef{
F: v.Categories,
},
}
chartSeriesCat := map[ChartType]*cCat{Scatter: nil, Bubble: nil, Bubble3D: nil}
if _, ok := chartSeriesCat[opts.Type]; ok || v.Categories == "" {
return nil
}
return cat
}
// drawChartSeriesVal provides a function to draw the c:val element by given
// chart series and format sets.
func (f *File) drawChartSeriesVal(v ChartSeries, opts *Chart) *cVal {
val := &cVal{
NumRef: &cNumRef{
F: v.Values,
},
}
chartSeriesVal := map[ChartType]*cVal{Scatter: nil, Bubble: nil, Bubble3D: nil}
if _, ok := chartSeriesVal[opts.Type]; ok {
return nil
}
return val
}
// drawChartSeriesMarker provides a function to draw the c:marker element by
// given data index and format sets.
func (f *File) drawChartSeriesMarker(i int, opts *Chart) *cMarker {
defaultSymbol := map[ChartType]*attrValString{Scatter: {Val: stringPtr("circle")}}
marker := &cMarker{
Symbol: defaultSymbol[opts.Type],
Size: &attrValInt{Val: intPtr(5)},
}
if symbol := stringPtr(opts.Series[i].Marker.Symbol); *symbol != "" {
marker.Symbol = &attrValString{Val: symbol}
}
if size := intPtr(opts.Series[i].Marker.Size); *size != 0 {
marker.Size = &attrValInt{Val: size}
}
if i < 6 {
marker.SpPr = &cSpPr{
SolidFill: &aSolidFill{
SchemeClr: &aSchemeClr{
Val: "accent" + strconv.Itoa(i+1),
},
},
Ln: &aLn{
W: 9252,
SolidFill: &aSolidFill{
SchemeClr: &aSchemeClr{
Val: "accent" + strconv.Itoa(i+1),
},
},
},
}
}
marker.SpPr = f.drawShapeFill(opts.Series[i].Marker.Fill, marker.SpPr)
chartSeriesMarker := map[ChartType]*cMarker{Scatter: marker, Line: marker}
return chartSeriesMarker[opts.Type]
}
// drawChartSeriesXVal provides a function to draw the c:xVal element by given
// chart series and format sets.
func (f *File) drawChartSeriesXVal(v ChartSeries, opts *Chart) *cCat {
cat := &cCat{
StrRef: &cStrRef{
F: v.Categories,
},
}
chartSeriesXVal := map[ChartType]*cCat{Scatter: cat, Bubble: cat, Bubble3D: cat}
return chartSeriesXVal[opts.Type]
}
// drawChartSeriesYVal provides a function to draw the c:yVal element by given
// chart series and format sets.
func (f *File) drawChartSeriesYVal(v ChartSeries, opts *Chart) *cVal {
val := &cVal{
NumRef: &cNumRef{
F: v.Values,
},
}
chartSeriesYVal := map[ChartType]*cVal{Scatter: val, Bubble: val, Bubble3D: val}
return chartSeriesYVal[opts.Type]
}
// drawCharSeriesBubbleSize provides a function to draw the c:bubbleSize
// element by given chart series and format sets.
func (f *File) drawCharSeriesBubbleSize(v ChartSeries, opts *Chart) *cVal {
if _, ok := map[ChartType]bool{Bubble: true, Bubble3D: true}[opts.Type]; !ok {
return nil
}
fVal := v.Values
if v.Sizes != "" {
fVal = v.Sizes
}
return &cVal{
NumRef: &cNumRef{
F: fVal,
},
}
}
// drawCharSeriesBubble3D provides a function to draw the c:bubble3D element
// by given format sets.
func (f *File) drawCharSeriesBubble3D(opts *Chart) *attrValBool {
if _, ok := map[ChartType]bool{Bubble3D: true}[opts.Type]; !ok {
return nil
}
return &attrValBool{Val: boolPtr(true)}
}
// drawChartNumFmt provides a function to draw the c:numFmt element by given
// data labels format sets.
func (f *File) drawChartNumFmt(labels ChartNumFmt) *cNumFmt {
var numFmt *cNumFmt
if labels.CustomNumFmt != "" || labels.SourceLinked {
numFmt = &cNumFmt{
FormatCode: labels.CustomNumFmt,
SourceLinked: labels.SourceLinked,
}
}
return numFmt
}
// drawChartDLbls provides a function to draw the c:dLbls element by given
// format sets.
func (f *File) drawChartDLbls(opts *Chart) *cDLbls {
return &cDLbls{
NumFmt: f.drawChartNumFmt(opts.PlotArea.NumFmt),
ShowLegendKey: &attrValBool{Val: boolPtr(opts.Legend.ShowLegendKey)},
ShowVal: &attrValBool{Val: boolPtr(opts.PlotArea.ShowVal)},
ShowCatName: &attrValBool{Val: boolPtr(opts.PlotArea.ShowCatName)},
ShowSerName: &attrValBool{Val: boolPtr(opts.PlotArea.ShowSerName)},
ShowBubbleSize: &attrValBool{Val: boolPtr(opts.PlotArea.ShowBubbleSize)},
ShowPercent: &attrValBool{Val: boolPtr(opts.PlotArea.ShowPercent)},
ShowLeaderLines: &attrValBool{Val: boolPtr(opts.PlotArea.ShowLeaderLines)},
}
}
// inSupportedChartDataLabelsPositionType provides a method to check if an
// element is present in an array, and return the index of its location,
// otherwise return -1.
func inSupportedChartDataLabelsPositionType(a []ChartDataLabelPositionType, x ChartDataLabelPositionType) int {
for idx, n := range a {
if x == n {
return idx
}
}
return -1
}
// drawChartSeriesDLbls provides a function to draw the c:dLbls element by
// given format sets.
func (f *File) drawChartSeriesDLbls(i int, opts *Chart) *cDLbls {
dLbls := f.drawChartDLbls(opts)
chartSeriesDLbls := map[ChartType]*cDLbls{
Scatter: nil, Surface3D: nil, WireframeSurface3D: nil, Contour: nil, WireframeContour: nil,
}
if _, ok := chartSeriesDLbls[opts.Type]; ok {
return nil
}
if types, ok := supportedChartDataLabelsPosition[opts.Type]; ok && opts.Series[i].DataLabelPosition != ChartDataLabelsPositionUnset {
if inSupportedChartDataLabelsPositionType(types, opts.Series[i].DataLabelPosition) != -1 {