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cell.go
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cell.go
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package xlsx
import (
"fmt"
"math"
"strconv"
"time"
)
const (
maxNonScientificNumber = 1e11
minNonScientificNumber = 1e-9
)
// CellType is an int type for storing metadata about the data type in the cell.
type CellType int
// These are the cell types from the ST_CellType spec
const (
CellTypeString CellType = iota
// CellTypeStringFormula is a specific format for formulas that return string values. Formulas that return numbers
// and booleans are stored as those types.
CellTypeStringFormula
CellTypeNumeric
CellTypeBool
// CellTypeInline is not respected on save, all inline string cells will be saved as SharedStrings
// when saving to an XLSX file. This the same behavior as that found in Excel.
CellTypeInline
CellTypeError
// d (Date): Cell contains a date in the ISO 8601 format.
// That is the only mention of this format in the XLSX spec.
// Date seems to be unused by the current version of Excel, it stores dates as Numeric cells with a date format string.
// For now these cells will have their value output directly. It is unclear if the value is supposed to be parsed
// into a number and then formatted using the formatting or not.
CellTypeDate
)
func (ct CellType) Ptr() *CellType {
return &ct
}
// Cell is a high level structure intended to provide user access to
// the contents of Cell within an xlsx.Row.
type Cell struct {
Row *Row
Value string
formula string
style *Style
NumFmt string
parsedNumFmt *parsedNumberFormat
date1904 bool
Hidden bool
HMerge int
VMerge int
cellType CellType
}
// CellInterface defines the public API of the Cell.
type CellInterface interface {
String() string
FormattedValue() string
}
// NewCell creates a cell and adds it to a row.
func NewCell(r *Row) *Cell {
return &Cell{Row: r, NumFmt: "general"}
}
// Merge with other cells, horizontally and/or vertically.
func (c *Cell) Merge(hcells, vcells int) {
c.HMerge = hcells
c.VMerge = vcells
}
// Type returns the CellType of a cell. See CellType constants for more details.
func (c *Cell) Type() CellType {
return c.cellType
}
// SetString sets the value of a cell to a string.
func (c *Cell) SetString(s string) {
c.Value = s
c.formula = ""
c.cellType = CellTypeString
}
// String returns the value of a Cell as a string. If you'd like to
// see errors returned from formatting then please use
// Cell.FormattedValue() instead.
func (c *Cell) String() string {
// To preserve the String() interface we'll throw away errors.
// Not that using FormattedValue is therefore strongly
// preferred.
value, _ := c.FormattedValue()
return value
}
// SetFloat sets the value of a cell to a float.
func (c *Cell) SetFloat(n float64) {
c.SetValue(n)
}
//GetTime returns the value of a Cell as a time.Time
func (c *Cell) GetTime(date1904 bool) (t time.Time, err error) {
f, err := c.Float()
if err != nil {
return t, err
}
return TimeFromExcelTime(f, date1904), nil
}
/*
The following are samples of format samples.
* "0.00e+00"
* "0", "#,##0"
* "0.00", "#,##0.00", "@"
* "#,##0 ;(#,##0)", "#,##0 ;[red](#,##0)"
* "#,##0.00;(#,##0.00)", "#,##0.00;[red](#,##0.00)"
* "0%", "0.00%"
* "0.00e+00", "##0.0e+0"
*/
// SetFloatWithFormat sets the value of a cell to a float and applies
// formatting to the cell.
func (c *Cell) SetFloatWithFormat(n float64, format string) {
c.SetValue(n)
c.NumFmt = format
c.formula = ""
}
// DateTimeOptions are additional options for exporting times
type DateTimeOptions struct {
// Location allows calculating times in other timezones/locations
Location *time.Location
// ExcelTimeFormat is the string you want excel to use to format the datetime
ExcelTimeFormat string
}
var (
DefaultDateFormat = builtInNumFmt[14]
DefaultDateTimeFormat = builtInNumFmt[22]
DefaultDateOptions = DateTimeOptions{
Location: timeLocationUTC,
ExcelTimeFormat: DefaultDateFormat,
}
DefaultDateTimeOptions = DateTimeOptions{
Location: timeLocationUTC,
ExcelTimeFormat: DefaultDateTimeFormat,
}
)
// SetDate sets the value of a cell to a float.
func (c *Cell) SetDate(t time.Time) {
c.SetDateWithOptions(t, DefaultDateOptions)
}
func (c *Cell) SetDateTime(t time.Time) {
c.SetDateWithOptions(t, DefaultDateTimeOptions)
}
// SetDateWithOptions allows for more granular control when exporting dates and times
func (c *Cell) SetDateWithOptions(t time.Time, options DateTimeOptions) {
_, offset := t.In(options.Location).Zone()
t = time.Unix(t.Unix()+int64(offset), 0)
c.SetDateTimeWithFormat(TimeToExcelTime(t.In(timeLocationUTC), c.date1904), options.ExcelTimeFormat)
}
func (c *Cell) SetDateTimeWithFormat(n float64, format string) {
c.Value = strconv.FormatFloat(n, 'f', -1, 64)
c.NumFmt = format
c.formula = ""
c.cellType = CellTypeNumeric
}
// Float returns the value of cell as a number.
func (c *Cell) Float() (float64, error) {
f, err := strconv.ParseFloat(c.Value, 64)
if err != nil {
return math.NaN(), err
}
return f, nil
}
// SetInt64 sets a cell's value to a 64-bit integer.
func (c *Cell) SetInt64(n int64) {
c.SetValue(n)
}
// Int64 returns the value of cell as 64-bit integer.
func (c *Cell) Int64() (int64, error) {
f, err := strconv.ParseInt(c.Value, 10, 64)
if err != nil {
return -1, err
}
return f, nil
}
// GeneralNumeric returns the value of the cell as a string. It is formatted very closely to the the XLSX spec for how
// to display values when the storage type is Number and the format type is General. It is not 100% identical to the
// spec but is as close as you can get using the built in Go formatting tools.
func (c *Cell) GeneralNumeric() (string, error) {
return generalNumericScientific(c.Value, true)
}
// GeneralNumericWithoutScientific returns numbers that are always formatted as numbers, but it does not follow
// the rules for when XLSX should switch to scientific notation, since sometimes scientific notation is not desired,
// even if that is how the document is supposed to be formatted.
func (c *Cell) GeneralNumericWithoutScientific() (string, error) {
return generalNumericScientific(c.Value, false)
}
// SetInt sets a cell's value to an integer.
func (c *Cell) SetInt(n int) {
c.SetValue(n)
}
// SetInt sets a cell's value to an integer.
func (c *Cell) SetValue(n interface{}) {
switch t := n.(type) {
case time.Time:
c.SetDateTime(t)
return
case int, int8, int16, int32, int64:
c.setNumeric(fmt.Sprintf("%d", n))
case float64:
// When formatting floats, do not use fmt.Sprintf("%v", n), this will cause numbers below 1e-4 to be printed in
// scientific notation. Scientific notation is not a valid way to store numbers in XML.
// Also not not use fmt.Sprintf("%f", n), this will cause numbers to be stored as X.XXXXXX. Which means that
// numbers will lose precision and numbers with fewer significant digits such as 0 will be stored as 0.000000
// which causes tests to fail.
c.setNumeric(strconv.FormatFloat(t, 'f', -1, 64))
case float32:
c.setNumeric(strconv.FormatFloat(float64(t), 'f', -1, 32))
case string:
c.SetString(t)
case []byte:
c.SetString(string(t))
case nil:
c.SetString("")
default:
c.SetString(fmt.Sprintf("%v", n))
}
}
// setNumeric sets a cell's value to a number
func (c *Cell) setNumeric(s string) {
c.Value = s
c.NumFmt = builtInNumFmt[builtInNumFmtIndex_GENERAL]
c.formula = ""
c.cellType = CellTypeNumeric
}
// Int returns the value of cell as integer.
// Has max 53 bits of precision
// See: float64(int64(math.MaxInt))
func (c *Cell) Int() (int, error) {
f, err := strconv.ParseFloat(c.Value, 64)
if err != nil {
return -1, err
}
return int(f), nil
}
// SetBool sets a cell's value to a boolean.
func (c *Cell) SetBool(b bool) {
if b {
c.Value = "1"
} else {
c.Value = "0"
}
c.cellType = CellTypeBool
}
// Bool returns a boolean from a cell's value.
// TODO: Determine if the current return value is
// appropriate for types other than CellTypeBool.
func (c *Cell) Bool() bool {
// If bool, just return the value.
if c.cellType == CellTypeBool {
return c.Value == "1"
}
// If numeric, base it on a non-zero.
if c.cellType == CellTypeNumeric {
return c.Value != "0"
}
// Return whether there's an empty string.
return c.Value != ""
}
// SetFormula sets the format string for a cell.
func (c *Cell) SetFormula(formula string) {
c.formula = formula
c.cellType = CellTypeNumeric
}
func (c *Cell) SetStringFormula(formula string) {
c.formula = formula
c.cellType = CellTypeStringFormula
}
// Formula returns the formula string for the cell.
func (c *Cell) Formula() string {
return c.formula
}
// GetStyle returns the Style associated with a Cell
func (c *Cell) GetStyle() *Style {
if c.style == nil {
c.style = NewStyle()
}
return c.style
}
// SetStyle sets the style of a cell.
func (c *Cell) SetStyle(style *Style) {
c.style = style
}
// GetNumberFormat returns the number format string for a cell.
func (c *Cell) GetNumberFormat() string {
return c.NumFmt
}
func (c *Cell) formatToFloat(format string) (string, error) {
f, err := strconv.ParseFloat(c.Value, 64)
if err != nil {
return c.Value, err
}
return fmt.Sprintf(format, f), nil
}
func (c *Cell) formatToInt(format string) (string, error) {
f, err := strconv.ParseFloat(c.Value, 64)
if err != nil {
return c.Value, err
}
return fmt.Sprintf(format, int(f)), nil
}
// getNumberFormat will update the parsedNumFmt struct if it has become out of date, since a cell's NumFmt string is a
// public field that could be edited by clients.
func (c *Cell) getNumberFormat() *parsedNumberFormat {
if c.parsedNumFmt == nil || c.parsedNumFmt.numFmt != c.NumFmt {
c.parsedNumFmt = parseFullNumberFormatString(c.NumFmt)
}
return c.parsedNumFmt
}
// FormattedValue returns a value, and possibly an error condition
// from a Cell. If it is possible to apply a format to the cell
// value, it will do so, if not then an error will be returned, along
// with the raw value of the Cell.
func (c *Cell) FormattedValue() (string, error) {
fullFormat := c.getNumberFormat()
returnVal, err := fullFormat.FormatValue(c)
if fullFormat.parseEncounteredError != nil {
return returnVal, *fullFormat.parseEncounteredError
}
return returnVal, err
}