Marko Tikvić / webutility

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pdfhelper/pdf.go 6 KB
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1b51eed04   Marko Tikvić   pdf helper 
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  package pdfhelper
  
  import (
  	"fmt"
  	"strings"
  
  	"git.to-net.rs/marko.tikvic/gofpdf"
  )
  
  // Block ...
  const (
  	CENTER   = "C"
  	LEFT     = "L"
  	RIGHT    = "R"
  	TOP      = "T"
  	BOTTOM   = "B"
  	FULL     = "1"
  	NOBORDER = ""
  )
  
  const (
  	CONTINUE = 0
  	NEWLINE  = 1
  	BELLOW   = 2
  )
  
  const (
  	cyrillicEncoding = "cp1251"
  	latinEncoding    = "cp1250"
  )
  
  // Helper ...
  type Helper struct {
  	*gofpdf.Fpdf
  	translators map[string]func(string) string
  }
  
  // New ...
  func New(ori, unit, size string) *Helper {
  	helper := &Helper{
  		Fpdf: gofpdf.New(ori, unit, size, ""),
  	}
  
  	return helper
  }
  
  func (pdf *Helper) LoadTranslators() {
  	pdf.translators = make(map[string]func(string) string)
  	pdf.translators[latinEncoding] = pdf.UnicodeTranslatorFromDescriptor(latinEncoding)
  	pdf.translators[cyrillicEncoding] = pdf.UnicodeTranslatorFromDescriptor(cyrillicEncoding)
  }
  
  // InsertTab ...
  func (pdf *Helper) InsertTab(count int, w, h float64) {
  	for i := 0; i < count; i++ {
  		pdf.Cell(w, h, "")
  	}
  }
  
  // CellWithBox ...
  func (pdf *Helper) CellWithBox(w, h float64, text, align string) {
  	//pdf.drawCellMargins(w, h)
  	//pdf.Cell(w, h, text)
  	pdf.CellFormat(w, h, pdf.ToUTF8(text), FULL, CONTINUE, align, false, 0, "")
  }
  
  func (pdf *Helper) CellWithMargins(w, h float64, text, align string, index, of int) {
  	len := of - 1
  	border := ""
  
  	// if top cell
  	if index == 0 {
  		border += "T"
  	}
  
  	border += "LR" // always draw these
  
  	// if bottom cell
  	if index == len {
  		border += "B"
  	}
  
  	pdf.CellFormat(w, h, pdf.ToUTF8(text), border, CONTINUE, align, false, 0, "")
  }
  
  // MultiRowCellWithBox ...
  func (pdf *Helper) MultiRowCellWithBox(w, h float64, text []string, align string) {
  	pdf.drawCellMargins(w, h*float64(len(text)))
  	for i := range text {
  		pdf.CellFormat(w, h, pdf.ToUTF8(text[i]), "", BELLOW, align, false, 0, "")
  	}
  }
  
  // CellFormat(w, h, text, borders, newLine, fill)
  
  type FormatedCell struct {
  	W, H            float64
  	Text            string
  	Font, FontStyle string
  	FontSize        float64
  	Border          string
  	Alignment       string
  }
  
  func (pdf *Helper) Column(x, y float64, cells []FormatedCell) {
  	pdf.SetXY(x, y)
  	for _, c := range cells {
  		pdf.SetFont(c.Font, c.FontStyle, c.FontSize)
  		pdf.CellFormat(c.W, c.H, pdf.ToUTF8(c.Text), c.Border, BELLOW, c.Alignment, false, 0, "")
  		//pdf.CellFormat(c.w, c.h, c.text, c.border, BELLOW, align, false, 0, "")
  	}
  }
  
  // NewLine ...
  func (pdf *Helper) NewLine(h float64) {
  	pdf.Ln(h)
  }
  
  // WriteColumns ...
  func (pdf *Helper) WriteColumns(align string, cols []PDFCell) {
  	for _, c := range cols {
  		pdf.CellFormat(c.width, c.height, pdf.ToUTF8(c.data), "", CONTINUE, align, false, 0, "")
  	}
  }
  
  func (pdf *Helper) Row(x, y float64, cells []FormatedCell) {
  	pdf.SetXY(x, y)
  	for _, c := range cells {
  		pdf.SetFont(c.Font, c.FontStyle, c.FontSize)
  		pdf.CellFormat(c.W, c.H, pdf.ToUTF8(c.Text), c.Border, CONTINUE, c.Alignment, false, 0, "")
  	}
  }
  
  const threeDots = "\u2056\u2056\u2056"
  
  // WriteColumnsWithAlignment ...
  func (pdf *Helper) WriteColumnsWithAlignment(cols []PDFCellAligned) {
  	for _, c := range cols {
  		lines := pdf.SplitText(c.data, c.width)
  		if len(lines) == 1 {
  			pdf.CellFormat(c.width, c.height, pdf.ToUTF8(lines[0]), "", CONTINUE, c.alignment, false, 0, "")
  		} else {
  			pdf.CellFormat(c.width, c.height, pdf.ToUTF8(lines[0]+threeDots), "", CONTINUE, c.alignment, false, 0, "")
  		}
  	}
  
  }
  
  func (pdf *Helper) LimitText(text, limiter string, maxWidth float64) string {
  	parts := pdf.Fpdf.SplitText(text, maxWidth)
  	if len(parts) > 1 {
  		return parts[0] + limiter
  	}
  
  	return text
  }
  
  // InsertImage ...
  func (pdf *Helper) InsertImage(img string, x, y, w, h float64) {
  	imgType := ""
  	if parts := strings.Split(img, "."); len(parts) >= 2 {
  		imgType = parts[len(parts)-1]
  	}
  	opt := gofpdf.ImageOptions{
  		ImageType:             imgType,
  		ReadDpi:               false,
  		AllowNegativePosition: false,
  	}
  	autoBreak := false // if it's not false then you can't draw the image at an arbitrary height (y position)
  	pdf.ImageOptions(img, x, y, w, h, autoBreak, opt, 0, "")
  }
  
  // PDFCell ...
  type PDFCell struct {
  	data          string
  	height, width float64
  }
  
  // PDFCellAligned ...
  type PDFCellAligned struct {
  	alignment     string
  	data          string
  	height, width float64
  }
  
  func (pdf *Helper) TextLength(txt, family, style string, size float64) float64 {
  	family, _, _, _ = pdf.setCorrectFontFamily(txt)
  	return pdf.Fpdf.TextLength(txt, family, style, size)
  }
  
  // ToUTF8 ...
  func (pdf *Helper) ToUTF8(s string) string {
  	encoding := latinEncoding
  	runes := []rune(s)
  	for _, r := range runes {
  		if uint64(r) >= 0x0402 && uint64(r) <= 0x044f {
  			encoding = cyrillicEncoding
  			break
  		}
  	}
  	pdf.setCorrectFontFamily(encoding)
  	translator, ok := pdf.translators[encoding]
  	if !ok {
  		return ""
  	}
  	return translator(s)
  }
  
  func (pdf *Helper) setCorrectFontFamily(enc string) (family, style string, ptSize, unitSize float64) {
  	family, style, ptSize, unitSize = pdf.GetFontInfo()
  	if enc == cyrillicEncoding {
  		if !strings.HasSuffix(family, "Cyrillic") {
  			family += "Cyrillic"
  		}
  	} else {
  		if strings.HasSuffix(family, "Cyrillic") {
  			family = strings.TrimSuffix(family, "Cyrillic")
  		}
  	}
  	pdf.SetFont(family, style, ptSize)
  	return family, style, ptSize, unitSize
  }
  
  func (pdf *Helper) PageHasSpace(requiredHeight float64) bool {
  	_, h := pdf.GetPageSize()
  	_, _, _, bot := pdf.GetMargins()
  	return (h - bot - pdf.GetY()) > requiredHeight
  }
  
  func (pdf *Helper) imageCenterOffset(w, h float64) (x, y float64) {
  	pageW, pageH := pdf.GetPageSize()
  	x = pageW/2.0 - w/2.0
  	y = pageH/2.0 - h/2.0
  	return x, y
  }
  
  // call before drawing the cell
  func (pdf *Helper) drawCellMargins(cw, ch float64) {
  	x0, y0 := pdf.GetX(), pdf.GetY()
  	pdf.DrawBox(x0, y0, cw, ch)
  }
  
  // DrawBox ...
  func (pdf Helper) DrawBox(x0, y0, w, h float64) {
  	pdf.Line(x0, y0, x0+w, y0)
  	pdf.Line(x0+w, y0, x0+w, y0+h)
  	pdf.Line(x0+w, y0+h, x0, y0+h)
  	pdf.Line(x0, y0+h, x0, y0)
  }
  
  // Strana %d/{TotalPages}
  func (pdf *Helper) InsertPageNumber(x, y float64, format string) {
  	num := fmt.Sprintf(format, pdf.PageNo())
  	pdf.Column(x, y, []FormatedCell{{10, 1, num, "DejaVuSans", "", 8, NOBORDER, LEFT}})
  }