/* * This file is subject to the terms and conditions defined in * file 'LICENSE.md', which is part of this source code package. */ package extractor import ( "errors" "fmt" "math" "sort" "strings" "unicode" "github.com/unidoc/unipdf/v3/common" "github.com/unidoc/unipdf/v3/contentstream" "github.com/unidoc/unipdf/v3/core" "github.com/unidoc/unipdf/v3/internal/transform" "github.com/unidoc/unipdf/v3/model" "golang.org/x/text/unicode/norm" ) // ExtractText processes and extracts all text data in content streams and returns as a string. // It takes into account character encodings in the PDF file, which are decoded by // CharcodeBytesToUnicode. // Characters that can't be decoded are replaced with MissingCodeRune ('\ufffd' = �). func (e *Extractor) ExtractText() (string, error) { text, _, _, err := e.ExtractTextWithStats() return text, err } // ExtractTextWithStats works like ExtractText but returns the number of characters in the output // (`numChars`) and the number of characters that were not decoded (`numMisses`). func (e *Extractor) ExtractTextWithStats() (extracted string, numChars int, numMisses int, err error) { pageText, numChars, numMisses, err := e.ExtractPageText() if err != nil { return "", numChars, numMisses, err } return pageText.ToText(), numChars, numMisses, nil } // ExtractPageText returns the text contents of `e` (an Extractor for a page) as a PageText. func (e *Extractor) ExtractPageText() (*PageText, int, int, error) { return e.extractPageText(e.contents, e.resources, 0) } // extractPageText returns the text contents of content stream `e` and resouces `resources` as a // PageText. // This can be called on a page or a form XObject. func (e *Extractor) extractPageText(contents string, resources *model.PdfPageResources, level int) (*PageText, int, int, error) { common.Log.Trace("extractPageText: level=%d", level) pageText := &PageText{} state := newTextState() fontStack := fontStacker{} var to *textObject cstreamParser := contentstream.NewContentStreamParser(contents) operations, err := cstreamParser.Parse() if err != nil { common.Log.Debug("ERROR: extractPageText parse failed. err=%v", err) return pageText, state.numChars, state.numMisses, err } processor := contentstream.NewContentStreamProcessor(*operations) processor.AddHandler(contentstream.HandlerConditionEnumAllOperands, "", func(op *contentstream.ContentStreamOperation, gs contentstream.GraphicsState, resources *model.PdfPageResources) error { operand := op.Operand switch operand { case "q": if !fontStack.empty() { common.Log.Trace("Save font state: %s\n%s", fontStack.peek(), fontStack.String()) fontStack.push(fontStack.peek()) } if state.tfont != nil { common.Log.Trace("Save font state: %s\n->%s\n%s", fontStack.peek(), state.tfont, fontStack.String()) fontStack.push(state.tfont) } case "Q": if !fontStack.empty() { common.Log.Trace("Restore font state: %s\n->%s\n%s", fontStack.peek(), fontStack.get(-2), fontStack.String()) fontStack.pop() } if len(fontStack) >= 2 { common.Log.Trace("Restore font state: %s\n->%s\n%s", state.tfont, fontStack.peek(), fontStack.String()) state.tfont = fontStack.pop() } case "BT": // Begin text // Begin a text object, initializing the text matrix, Tm, and the text line matrix, // Tlm, to the identity matrix. Text objects shall not be nested; a second BT shall // not appear before an ET. if to != nil { common.Log.Debug("BT called while in a text object") } to = newTextObject(e, resources, gs, &state, &fontStack) case "ET": // End Text pageText.marks = append(pageText.marks, to.marks...) to = nil case "T*": // Move to start of next text line to.nextLine() case "Td": // Move text location if ok, err := to.checkOp(op, 2, true); !ok { common.Log.Debug("ERROR: err=%v", err) return err } x, y, err := toFloatXY(op.Params) if err != nil { return err } to.moveText(x, y) case "TD": // Move text location and set leading. if ok, err := to.checkOp(op, 2, true); !ok { common.Log.Debug("ERROR: err=%v", err) return err } x, y, err := toFloatXY(op.Params) if err != nil { common.Log.Debug("ERROR: err=%v", err) return err } to.moveTextSetLeading(x, y) case "Tj": // Show text. if ok, err := to.checkOp(op, 1, true); !ok { common.Log.Debug("ERROR: Tj op=%s err=%v", op, err) return err } charcodes, ok := core.GetStringBytes(op.Params[0]) if !ok { common.Log.Debug("ERROR: Tj op=%s GetStringBytes failed", op) return core.ErrTypeError } return to.showText(charcodes) case "TJ": // Show text with adjustable spacing. if ok, err := to.checkOp(op, 1, true); !ok { common.Log.Debug("ERROR: TJ err=%v", err) return err } args, ok := core.GetArray(op.Params[0]) if !ok { common.Log.Debug("ERROR: TJ op=%s GetArrayVal failed", op) return err } return to.showTextAdjusted(args) case "'": // Move to next line and show text. if ok, err := to.checkOp(op, 1, true); !ok { common.Log.Debug("ERROR: ' err=%v", err) return err } charcodes, ok := core.GetStringBytes(op.Params[0]) if !ok { common.Log.Debug("ERROR: ' op=%s GetStringBytes failed", op) return core.ErrTypeError } to.nextLine() return to.showText(charcodes) case `"`: // Set word and character spacing, move to next line, and show text. if ok, err := to.checkOp(op, 1, true); !ok { common.Log.Debug("ERROR: \" err=%v", err) return err } x, y, err := toFloatXY(op.Params[:2]) if err != nil { return err } charcodes, ok := core.GetStringBytes(op.Params[2]) if !ok { common.Log.Debug("ERROR: \" op=%s GetStringBytes failed", op) return core.ErrTypeError } to.setCharSpacing(x) to.setWordSpacing(y) to.nextLine() return to.showText(charcodes) case "TL": // Set text leading. y, err := floatParam(op) if err != nil { common.Log.Debug("ERROR: TL err=%v", err) return err } to.setTextLeading(y) case "Tc": // Set character spacing. y, err := floatParam(op) if err != nil { common.Log.Debug("ERROR: Tc err=%v", err) return err } to.setCharSpacing(y) case "Tf": // Set font. if to == nil { // This is needed for 26-Hazard-Thermal-environment.pdf to = newTextObject(e, resources, gs, &state, &fontStack) } if ok, err := to.checkOp(op, 2, true); !ok { common.Log.Debug("ERROR: Tf err=%v", err) return err } name, ok := core.GetNameVal(op.Params[0]) if !ok { common.Log.Debug("ERROR: Tf op=%s GetNameVal failed", op) return core.ErrTypeError } size, err := core.GetNumberAsFloat(op.Params[1]) if !ok { common.Log.Debug("ERROR: Tf op=%s GetFloatVal failed. err=%v", op, err) return err } err = to.setFont(name, size) if err != nil { return err } case "Tm": // Set text matrix. if ok, err := to.checkOp(op, 6, true); !ok { common.Log.Debug("ERROR: Tm err=%v", err) return err } floats, err := core.GetNumbersAsFloat(op.Params) if err != nil { common.Log.Debug("ERROR: err=%v", err) return err } to.setTextMatrix(floats) case "Tr": // Set text rendering mode. if ok, err := to.checkOp(op, 1, true); !ok { common.Log.Debug("ERROR: Tr err=%v", err) return err } mode, ok := core.GetIntVal(op.Params[0]) if !ok { common.Log.Debug("ERROR: Tr op=%s GetIntVal failed", op) return core.ErrTypeError } to.setTextRenderMode(mode) case "Ts": // Set text rise. if ok, err := to.checkOp(op, 1, true); !ok { common.Log.Debug("ERROR: Ts err=%v", err) return err } y, err := core.GetNumberAsFloat(op.Params[0]) if err != nil { common.Log.Debug("ERROR: err=%v", err) return err } to.setTextRise(y) case "Tw": // Set word spacing. if ok, err := to.checkOp(op, 1, true); !ok { common.Log.Debug("ERROR: err=%v", err) return err } y, err := core.GetNumberAsFloat(op.Params[0]) if err != nil { common.Log.Debug("ERROR: err=%v", err) return err } to.setWordSpacing(y) case "Tz": // Set horizontal scaling. if ok, err := to.checkOp(op, 1, true); !ok { common.Log.Debug("ERROR: err=%v", err) return err } y, err := core.GetNumberAsFloat(op.Params[0]) if err != nil { common.Log.Debug("ERROR: err=%v", err) return err } to.setHorizScaling(y) case "Do": // Handle XObjects by recursing through form XObjects. name := *op.Params[0].(*core.PdfObjectName) _, xtype := resources.GetXObjectByName(name) if xtype != model.XObjectTypeForm { break } // Only process each form once. formResult, ok := e.formResults[string(name)] if !ok { xform, err := resources.GetXObjectFormByName(name) if err != nil { common.Log.Debug("ERROR: %v", err) return err } formContent, err := xform.GetContentStream() if err != nil { common.Log.Debug("ERROR: %v", err) return err } formResources := xform.Resources if formResources == nil { formResources = resources } tList, numChars, numMisses, err := e.extractPageText(string(formContent), formResources, level+1) if err != nil { common.Log.Debug("ERROR: %v", err) return err } formResult = textResult{*tList, numChars, numMisses} e.formResults[string(name)] = formResult } pageText.marks = append(pageText.marks, formResult.pageText.marks...) state.numChars += formResult.numChars state.numMisses += formResult.numMisses } return nil }) err = processor.Process(resources) if err != nil { common.Log.Debug("ERROR: Processing: err=%v", err) } return pageText, state.numChars, state.numMisses, err } type textResult struct { pageText PageText numChars int numMisses int } // // Text operators // // moveText "Td" Moves start of text by `tx`,`ty`. // Move to the start of the next line, offset from the start of the current line by (tx, ty). // tx and ty are in unscaled text space units. func (to *textObject) moveText(tx, ty float64) { to.moveTo(tx, ty) } // moveTextSetLeading "TD" Move text location and set leading. // Move to the start of the next line, offset from the start of the current line by (tx, ty). As a // side effect, this operator shall set the leading parameter in the text state. This operator shall // have the same effect as this code: // −ty TL // tx ty Td func (to *textObject) moveTextSetLeading(tx, ty float64) { to.state.tl = -ty to.moveTo(tx, ty) } // nextLine "T*"" Moves start of text line to next text line // Move to the start of the next line. This operator has the same effect as the code // 0 -Tl Td // where Tl denotes the current leading parameter in the text state. The negative of Tl is used // here because Tl is the text leading expressed as a positive number. Going to the next line // entails decreasing the y coordinate. (page 250) func (to *textObject) nextLine() { to.moveTo(0, -to.state.tl) } // setTextMatrix "Tm". // Set the text matrix, Tm, and the text line matrix, Tlm to the Matrix specified by the 6 numbers // in `f` (page 250). func (to *textObject) setTextMatrix(f []float64) { if len(f) != 6 { common.Log.Debug("ERROR: len(f) != 6 (%d)", len(f)) return } a, b, c, d, tx, ty := f[0], f[1], f[2], f[3], f[4], f[5] to.tm = transform.NewMatrix(a, b, c, d, tx, ty) to.tlm = to.tm } // showText "Tj". Show a text string. func (to *textObject) showText(charcodes []byte) error { return to.renderText(charcodes) } // showTextAdjusted "TJ". Show text with adjustable spacing. func (to *textObject) showTextAdjusted(args *core.PdfObjectArray) error { vertical := false for _, o := range args.Elements() { switch o.(type) { case *core.PdfObjectFloat, *core.PdfObjectInteger: x, err := core.GetNumberAsFloat(o) if err != nil { common.Log.Debug("ERROR: showTextAdjusted. Bad numerical arg. o=%s args=%+v", o, args) return err } dx, dy := -x*0.001*to.state.tfs, 0.0 if vertical { dy, dx = dx, dy } td := translationMatrix(transform.Point{X: dx, Y: dy}) to.tm.Concat(td) common.Log.Trace("showTextAdjusted: dx,dy=%3f,%.3f Tm=%s", dx, dy, to.tm) case *core.PdfObjectString: charcodes, ok := core.GetStringBytes(o) if !ok { common.Log.Trace("showTextAdjusted: Bad string arg. o=%s args=%+v", o, args) return core.ErrTypeError } to.renderText(charcodes) default: common.Log.Debug("ERROR: showTextAdjusted. Unexpected type (%T) args=%+v", o, args) return core.ErrTypeError } } return nil } // setTextLeading "TL". Set text leading. func (to *textObject) setTextLeading(y float64) { if to == nil || to.state == nil { return } to.state.tl = y } // setCharSpacing "Tc". Set character spacing. func (to *textObject) setCharSpacing(x float64) { if to == nil { return } to.state.tc = x } // setFont "Tf". Set font. func (to *textObject) setFont(name string, size float64) error { if to == nil { return nil } font, err := to.getFont(name) if err == nil { to.state.tfont = font if len(*to.fontStack) == 0 { to.fontStack.push(font) } else { (*to.fontStack)[len(*to.fontStack)-1] = font } } else if err == model.ErrFontNotSupported { // TODO(peterwilliams97): Do we need to handle this case in a special way? return err } else { return err } to.state.tfs = size return nil } // setTextRenderMode "Tr". Set text rendering mode. func (to *textObject) setTextRenderMode(mode int) { if to == nil { return } to.state.tmode = RenderMode(mode) } // setTextRise "Ts". Set text rise. func (to *textObject) setTextRise(y float64) { if to == nil { return } to.state.trise = y } // setWordSpacing "Tw". Set word spacing. func (to *textObject) setWordSpacing(y float64) { if to == nil { return } to.state.tw = y } // setHorizScaling "Tz". Set horizontal scaling. func (to *textObject) setHorizScaling(y float64) { if to == nil { return } to.state.th = y } // floatParam returns the single float parameter of operator `op`, or an error if it doesn't have // a single float parameter or we aren't in a text stream. func floatParam(op *contentstream.ContentStreamOperation) (float64, error) { if len(op.Params) != 1 { err := errors.New("incorrect parameter count") common.Log.Debug("ERROR: %#q should have %d input params, got %d %+v", op.Operand, 1, len(op.Params), op.Params) return 0.0, err } return core.GetNumberAsFloat(op.Params[0]) } // checkOp returns true if we are in a text stream and `op` has `numParams` params. // If `hard` is true and the number of params don't match, an error is returned. func (to *textObject) checkOp(op *contentstream.ContentStreamOperation, numParams int, hard bool) (ok bool, err error) { if to == nil { var params []core.PdfObject if numParams > 0 { params = op.Params if len(params) > numParams { params = params[:numParams] } } common.Log.Debug("%#q operand outside text. params=%+v", op.Operand, params) } if numParams >= 0 { if len(op.Params) != numParams { if hard { err = errors.New("incorrect parameter count") } common.Log.Debug("ERROR: %#q should have %d input params, got %d %+v", op.Operand, numParams, len(op.Params), op.Params) return false, err } } return true, nil } // fontStacker is the PDF font stack implementation. type fontStacker []*model.PdfFont // String returns a string describing the current state of the font stack. func (fontStack *fontStacker) String() string { parts := []string{"---- font stack"} for i, font := range *fontStack { s := "" if font != nil { s = font.String() } parts = append(parts, fmt.Sprintf("\t%2d: %s", i, s)) } return strings.Join(parts, "\n") } // push pushes `font` onto the font stack. func (fontStack *fontStacker) push(font *model.PdfFont) { *fontStack = append(*fontStack, font) } // pop pops and returns the element on the top of the font stack if there is one or nil if there isn't. func (fontStack *fontStacker) pop() *model.PdfFont { if fontStack.empty() { return nil } font := (*fontStack)[len(*fontStack)-1] *fontStack = (*fontStack)[:len(*fontStack)-1] return font } // peek returns the element on the top of the font stack if there is one or nil if there isn't. func (fontStack *fontStacker) peek() *model.PdfFont { if fontStack.empty() { return nil } return (*fontStack)[len(*fontStack)-1] } // get returns the `idx`'th element of the font stack if there is one or nil if there isn't. // idx = 0: bottom of font stack // idx = len(fontstack) - 1: top of font stack // idx = -n is same as dx = len(fontstack) - n, so fontstack.get(-1) is same as fontstack.peek() func (fontStack *fontStacker) get(idx int) *model.PdfFont { if idx < 0 { idx += fontStack.size() } if idx < 0 || idx > fontStack.size()-1 { return nil } return (*fontStack)[idx] } // empty returns true if the font stack is empty. func (fontStack *fontStacker) empty() bool { return len(*fontStack) == 0 } // size returns the number of elements in the font stack. func (fontStack *fontStacker) size() int { return len(*fontStack) } // 9.3 Text State Parameters and Operators (page 243) // Some of these parameters are expressed in unscaled text space units. This means that they shall // be specified in a coordinate system that shall be defined by the text matrix, Tm but shall not be // scaled by the font size parameter, Tfs. // textState represents the text state. type textState struct { tc float64 // Character spacing. Unscaled text space units. tw float64 // Word spacing. Unscaled text space units. th float64 // Horizontal scaling. tl float64 // Leading. Unscaled text space units. Used by TD,T*,'," see Table 108. tfs float64 // Text font size. tmode RenderMode // Text rendering mode. trise float64 // Text rise. Unscaled text space units. Set by Ts. tfont *model.PdfFont // Text font. // For debugging numChars int numMisses int } // 9.4.1 General (page 248) // A PDF text object consists of operators that may show text strings, move the text position, and // set text state and certain other parameters. In addition, two parameters may be specified only // within a text object and shall not persist from one text object to the next: // • Tm, the text matrix // • Tlm, the text line matrix // // Text space is converted to device space by this transform (page 252) // Trm is the text rendering matrix // | Tfs x Th 0 0 | // Trm = | 0 Tfs 0 | × Tm × CTM // | 0 Trise 1 | // This corresponds to the following code in renderText() // trm := to.gs.CTM.Mult(stateMatrix).Mult(to.tm) // textObject represents a PDF text object. type textObject struct { e *Extractor resources *model.PdfPageResources gs contentstream.GraphicsState fontStack *fontStacker state *textState tm transform.Matrix // Text matrix. For the character pointer. tlm transform.Matrix // Text line matrix. For the start of line pointer. marks []textMark // Text marks get written here. } // newTextState returns a default textState. func newTextState() textState { return textState{ th: 100, tmode: RenderModeFill, } } // newTextObject returns a default textObject. func newTextObject(e *Extractor, resources *model.PdfPageResources, gs contentstream.GraphicsState, state *textState, fontStack *fontStacker) *textObject { return &textObject{ e: e, resources: resources, gs: gs, fontStack: fontStack, state: state, tm: transform.IdentityMatrix(), tlm: transform.IdentityMatrix(), } } // renderText processes and renders byte array `data` for extraction purposes. func (to *textObject) renderText(data []byte) error { font := to.getCurrentFont() charcodes := font.BytesToCharcodes(data) runes, numChars, numMisses := font.CharcodesToUnicodeWithStats(charcodes) if numMisses > 0 { common.Log.Debug("renderText: numChars=%d numMisses=%d", numChars, numMisses) } to.state.numChars += numChars to.state.numMisses += numMisses state := to.state tfs := state.tfs th := state.th / 100.0 spaceMetrics, ok := font.GetRuneMetrics(' ') if !ok { spaceMetrics, ok = font.GetCharMetrics(32) } if !ok { spaceMetrics, _ = model.DefaultFont().GetRuneMetrics(' ') } spaceWidth := spaceMetrics.Wx * glyphTextRatio common.Log.Trace("spaceWidth=%.2f text=%q font=%s fontSize=%.1f", spaceWidth, runes, font, tfs) stateMatrix := transform.NewMatrix( tfs*th, 0, 0, tfs, 0, state.trise) common.Log.Trace("renderText: %d codes=%+v runes=%q", len(charcodes), charcodes, runes) for i, r := range runes { // TODO(peterwilliams97): Need to find and fix cases where this happens. if r == '\x00' { continue } code := charcodes[i] // The location of the text on the page in device coordinates is given by trm, the text // rendering matrix. trm := to.gs.CTM.Mult(to.tm).Mult(stateMatrix) // calculate the text location displacement due to writing `r`. We will use this to update // to.tm // w is the unscaled movement at the end of a word. w := 0.0 if r == ' ' { w = state.tw } m, ok := font.GetCharMetrics(code) if !ok { common.Log.Debug("ERROR: No metric for code=%d r=0x%04x=%+q %s", code, r, r, font) return errors.New("no char metrics") } // c is the character size in unscaled text units. c := transform.Point{X: m.Wx * glyphTextRatio, Y: m.Wy * glyphTextRatio} // t0 is the end of this character. // t is the displacement of the text cursor when the character is rendered. t0 := transform.Point{X: (c.X*tfs + w) * th} t := transform.Point{X: (c.X*tfs + state.tc + w) * th} // td, td0 are t, t0 in matrix form. // td0 is where this character ends. td is where the next character starts. td0 := translationMatrix(t0) td := translationMatrix(t) common.Log.Trace("\"%c\" stateMatrix=%s CTM=%s Tm=%s", r, stateMatrix, to.gs.CTM, to.tm) common.Log.Trace("tfs=%.3f th=%.3f Tc=%.3f w=%.3f (Tw=%.3f)", tfs, th, state.tc, w, state.tw) common.Log.Trace("m=%s c=%+v t0=%+v td0=%s trm0=%s", m, c, t0, td0, td0.Mult(to.tm).Mult(to.gs.CTM)) mark := to.newTextMark( string(r), trm, translation(to.gs.CTM.Mult(to.tm).Mult(td0)), spaceWidth*trm.ScalingFactorX()) common.Log.Trace("i=%d code=%d mark=%s trm=%s", i, code, mark, trm) to.marks = append(to.marks, mark) // update the text matrix by the displacement of the text location. to.tm.Concat(td) common.Log.Trace("to.tm=%s", to.tm) } return nil } // glyphTextRatio converts Glyph metrics units to unscaled text space units. const glyphTextRatio = 1.0 / 1000.0 // translation returns the translation part of `m`. func translation(m transform.Matrix) transform.Point { tx, ty := m.Translation() return transform.Point{X: tx, Y: ty} } // translationMatrix returns a matrix that translates by `p`. func translationMatrix(p transform.Point) transform.Matrix { return transform.TranslationMatrix(p.X, p.Y) } // moveTo moves the start of line pointer by `tx`,`ty` and sets the text pointer to the // start of line pointer. // Move to the start of the next line, offset from the start of the current line by (tx, ty). // `tx` and `ty` are in unscaled text space units. func (to *textObject) moveTo(tx, ty float64) { to.tlm.Concat(transform.NewMatrix(1, 0, 0, 1, tx, ty)) to.tm = to.tlm } // textMark represents text drawn on a page and its position in device coordinates. // All dimensions are in device coordinates. type textMark struct { text string // The text. orient int // The text orientation in degrees. This is the current TRM rounded to 10°. orientedStart transform.Point // Left of text in orientation where text is horizontal. orientedEnd transform.Point // Right of text in orientation where text is horizontal. height float64 // Text height. spaceWidth float64 // Best guess at the width of a space in the font the text was rendered with. count int64 // To help with reading debug logs. } // newTextMark returns an textMark for text `text` rendered with text rendering matrix (TRM) `trm` and end // of character device coordinates `end`. `spaceWidth` is our best guess at the width of a space in // the font the text is rendered in device coordinates. func (to *textObject) newTextMark(text string, trm transform.Matrix, end transform.Point, spaceWidth float64) textMark { to.e.textCount++ theta := trm.Angle() orient := nearestMultiple(theta, 10) var height float64 if orient%180 != 90 { height = trm.ScalingFactorY() } else { height = trm.ScalingFactorX() } return textMark{ text: text, orient: orient, orientedStart: translation(trm).Rotate(theta), orientedEnd: end.Rotate(theta), height: height, spaceWidth: spaceWidth, count: to.e.textCount, } } // nearestMultiple return the integer multiple of `m` that is closest to `x`. func nearestMultiple(x float64, m int) int { if m == 0 { m = 1 } fac := float64(m) return int(math.Round(x/fac) * fac) } // String returns a string describing `t`. func (t textMark) String() string { return fmt.Sprintf("textMark{@%03d [%.3f,%.3f] %.1f %d° %q}", t.count, t.orientedStart.X, t.orientedStart.Y, t.Width(), t.orient, truncate(t.text, 100)) } // Width returns the width of `t`.text in the text direction. func (t textMark) Width() float64 { return math.Abs(t.orientedStart.X - t.orientedEnd.X) } // PageText represents the layout of text on a device page. // It's implementation is opaque to allow for future optimizations. type PageText struct { // PageText is currently implemented as a list of texts and their positions on a PDF page. marks []textMark } // String returns a string describing `pt`. func (pt PageText) String() string { parts := []string{fmt.Sprintf("PageText: %d elements", pt.length())} for _, t := range pt.marks { parts = append(parts, t.String()) } return strings.Join(parts, "\n") } // length returns the number of elements in `pt.marks`. func (pt PageText) length() int { return len(pt.marks) } // height returns the max height of the elements in `pt.marks`. func (pt PageText) height() float64 { fontHeight := 0.0 for _, t := range pt.marks { if t.height > fontHeight { fontHeight = t.height } } return fontHeight } // ToText returns the contents of `pt` as a single string. func (pt PageText) ToText() string { fontHeight := pt.height() // We sort with a y tolerance to allow for subscripts, diacritics etc. tol := minFloat(fontHeight*0.2, 5.0) common.Log.Trace("ToText: %d elements fontHeight=%.1f tol=%.1f", len(pt.marks), fontHeight, tol) // Uncomment the 2 following Trace statements to see the effects of sorting/ // common.Log.Trace("ToText: Before sorting %s", pt) pt.sortPosition(tol) // common.Log.Trace("ToText: After sorting %s", pt) lines := pt.toLines(tol) texts := make([]string, 0, len(lines)) for _, l := range lines { texts = append(texts, l.text) } return strings.Join(texts, "\n") } // sortPosition sorts a text list by its elements' position on a page. // Sorting is by orientation then top to bottom, left to right when page is orientated so that text // is horizontal. func (pt *PageText) sortPosition(tol float64) { sort.SliceStable(pt.marks, func(i, j int) bool { ti, tj := pt.marks[i], pt.marks[j] if ti.orient != tj.orient { return ti.orient < tj.orient } if math.Abs(ti.orientedStart.Y-tj.orientedStart.Y) > tol { return ti.orientedStart.Y > tj.orientedStart.Y } return ti.orientedStart.X < tj.orientedStart.X }) } // textLine represents a line of text on a page. type textLine struct { y float64 // y position of line. dxList []float64 // x distance between successive words in line. text string // text in the line. words []string // words in the line. } // toLines returns the text and positions in `pt.marks` as a slice of textLine. // NOTE: Caller must sort the text list top-to-bottom, left-to-right (for orientation adjusted so // that text is horizontal) before calling this function. func (pt PageText) toLines(tol float64) []textLine { // We divide `pt.marks` into slices which contain texts with the same orientation, extract the lines // for each orientation then return the concatention of these lines sorted by orientation. tlOrient := make(map[int][]textMark, len(pt.marks)) for _, t := range pt.marks { tlOrient[t.orient] = append(tlOrient[t.orient], t) } var lines []textLine for _, o := range orientKeys(tlOrient) { lines = append(lines, PageText{tlOrient[o]}.toLinesOrient(tol)...) } return lines } // toLinesOrient returns the text and positions in `pt.marks` as a slice of textLine. // NOTE: This function only works on text lists where all text is the same orientation so it should // only be called from toLines. // Caller must sort the text list top-to-bottom, left-to-right (for orientation adjusted so // that text is horizontal) before calling this function. func (pt PageText) toLinesOrient(tol float64) []textLine { if len(pt.marks) == 0 { return []textLine{} } var lines []textLine var words []string var x []float64 y := pt.marks[0].orientedStart.Y scanning := false averageCharWidth := exponAve{} wordSpacing := exponAve{} lastEndX := 0.0 // lastEndX is pt.marks[i-1].orientedEnd.X for _, t := range pt.marks { if t.orientedStart.Y+tol < y { if len(words) > 0 { line := newLine(y, x, words) if averageCharWidth.running { // FIXME(peterwilliams97): Fix and reinstate combineDiacritics. // line = combineDiacritics(line, averageCharWidth.ave) line = removeDuplicates(line, averageCharWidth.ave) } lines = append(lines, line) } words = []string{} x = []float64{} y = t.orientedStart.Y scanning = false } // Detect text movements that represent spaces on the printed page. // We use a heuristic from PdfBox: If the next character starts to the right of where a // character after a space at "normal spacing" would start, then there is a space before it. // The tricky thing to guess here is the width of a space at normal spacing. // We follow PdfBox and use minFloat(deltaSpace, deltaCharWidth). deltaSpace := 0.0 if t.spaceWidth == 0 { deltaSpace = math.MaxFloat64 } else { wordSpacing.update(t.spaceWidth) deltaSpace = wordSpacing.ave * 0.5 } averageCharWidth.update(t.Width()) deltaCharWidth := averageCharWidth.ave * 0.3 isSpace := false nextWordX := lastEndX + minFloat(deltaSpace, deltaCharWidth) if scanning && t.text != " " { isSpace = nextWordX < t.orientedStart.X } common.Log.Trace("t=%s", t) common.Log.Trace("width=%.2f delta=%.2f deltaSpace=%.2g deltaCharWidth=%.2g", t.Width(), minFloat(deltaSpace, deltaCharWidth), deltaSpace, deltaCharWidth) common.Log.Trace("%+q [%.1f, %.1f] lastEndX=%.2f nextWordX=%.2f (%.2f) isSpace=%t", t.text, t.orientedStart.X, t.orientedStart.Y, lastEndX, nextWordX, nextWordX-t.orientedStart.X, isSpace) if isSpace { words = append(words, " ") x = append(x, (lastEndX+t.orientedStart.X)*0.5) } // Add the text to the line. lastEndX = t.orientedEnd.X words = append(words, t.text) x = append(x, t.orientedStart.X) scanning = true common.Log.Trace("lastEndX=%.2f", lastEndX) } if len(words) > 0 { line := newLine(y, x, words) if averageCharWidth.running { line = removeDuplicates(line, averageCharWidth.ave) } lines = append(lines, line) } return lines } // orientKeys returns the keys of `tlOrient` as a sorted slice. func orientKeys(tlOrient map[int][]textMark) []int { keys := []int{} for k := range tlOrient { keys = append(keys, k) } sort.Ints(keys) return keys } // exponAve implements an exponential average. type exponAve struct { ave float64 // Current average value. running bool // Has `ave` been set? } // update updates the exponential average `exp.ave` and returns it. func (exp *exponAve) update(x float64) float64 { if !exp.running { exp.ave = x exp.running = true } else { // NOTE(peterwilliams97): 0.5 is a guess. It may be possible to improve average character // and space width estimation by tuning this value. It may be that different exponents // would work better for character and space estimation. exp.ave = (exp.ave + x) * 0.5 } return exp.ave } // newLine returns the textLine representation of strings `words` with y coordinate `y` and x // coordinates `x`. func newLine(y float64, x []float64, words []string) textLine { dxList := make([]float64, 0, len(x)) for i := 1; i < len(x); i++ { dxList = append(dxList, x[i]-x[i-1]) } return textLine{y: y, dxList: dxList, text: strings.Join(words, ""), words: words} } // removeDuplicates returns `line` with duplicate characters removed. `charWidth` is the average // character width for the line. func removeDuplicates(line textLine, charWidth float64) textLine { if len(line.dxList) == 0 { return line } // NOTE(peterwilliams97) 0.3 is a guess. It may be possible to tune this to a better value. tol := charWidth * 0.3 words := []string{line.words[0]} var dxList []float64 w0 := line.words[0] for i, dx := range line.dxList { w := line.words[i+1] if w != w0 || dx > tol { words = append(words, w) dxList = append(dxList, dx) } w0 = w } return textLine{y: line.y, dxList: dxList, text: strings.Join(words, ""), words: words} } // combineDiacritics returns `line` with diacritics close to characters combined with the characters. // `charWidth` is the average character width for the line. // We have to do this because PDF can render diacritics separately to the characters they attach to // in extracted text. func combineDiacritics(line textLine, charWidth float64) textLine { if len(line.dxList) == 0 { return line } // NOTE(peterwilliams97) 0.2 is a guess. It may be possible to tune this to a better value. tol := charWidth * 0.2 common.Log.Trace("combineDiacritics: charWidth=%.2f tol=%.2f", charWidth, tol) var words []string var dxList []float64 w := line.words[0] w, c := countDiacritic(w) delta := 0.0 dx0 := 0.0 parts := []string{w} numChars := c for i := 0; i < len(line.dxList); i++ { w = line.words[i+1] w, c := countDiacritic(w) dx := line.dxList[i] if numChars+c <= 1 && delta+dx <= tol { if len(parts) == 0 { dx0 = dx } else { delta += dx } parts = append(parts, w) numChars += c } else { if len(parts) > 0 { if len(words) > 0 { dxList = append(dxList, dx0) } words = append(words, combine(parts)) } parts = []string{w} numChars = c dx0 = dx delta = 0.0 } } if len(parts) > 0 { if len(words) > 0 { dxList = append(dxList, dx0) } words = append(words, combine(parts)) } if len(words) != len(dxList)+1 { common.Log.Error("Inconsistent: \nwords=%d %q\ndxList=%d %.2f", len(words), words, len(dxList), dxList) return line } return textLine{y: line.y, dxList: dxList, text: strings.Join(words, ""), words: words} } // combine combines any diacritics in `parts` with the single non-diacritic character in `parts`. func combine(parts []string) string { if len(parts) == 1 { // Must be a non-diacritic. return parts[0] } // We need to put the diacritics before the non-diacritic for NFKC normalization to work. diacritic := map[string]bool{} for _, w := range parts { r := []rune(w)[0] diacritic[w] = unicode.Is(unicode.Mn, r) || unicode.Is(unicode.Sk, r) } sort.SliceStable(parts, func(i, j int) bool { return !diacritic[parts[i]] && diacritic[parts[j]] }) // Construct the NFKC-normalized concatenation of the diacritics and the non-diacritic. for i, w := range parts { parts[i] = strings.TrimSpace(norm.NFKC.String(w)) } return strings.Join(parts, "") } // countDiacritic returns the combining diacritic version of `w` (usually itself) and the number of // non-diacritics in `w` (0 or 1). func countDiacritic(w string) (string, int) { runes := []rune(w) if len(runes) != 1 { return w, 1 } r := runes[0] c := 1 if (unicode.Is(unicode.Mn, r) || unicode.Is(unicode.Sk, r)) && r != '\'' && r != '"' && r != '`' { c = 0 } if w2, ok := diacritics[r]; ok { c = 0 w = w2 } return w, c } // diacritics is a map of diacritic characters that are not classified as unicode.Mn or unicode.Sk // and the corresponding unicode.Mn or unicode.Sk characters. This map was copied from PdfBox. // (https://svn.apache.org/repos/asf/pdfbox/trunk/pdfbox/src/main/java/org/apache/pdfbox/text/TextPosition.java) var diacritics = map[rune]string{ 0x0060: "\u0300", 0x02CB: "\u0300", 0x0027: "\u0301", 0x02B9: "\u0301", 0x02CA: "\u0301", 0x005e: "\u0302", 0x02C6: "\u0302", 0x007E: "\u0303", 0x02C9: "\u0304", 0x00B0: "\u030A", 0x02BA: "\u030B", 0x02C7: "\u030C", 0x02C8: "\u030D", 0x0022: "\u030E", 0x02BB: "\u0312", 0x02BC: "\u0313", 0x0486: "\u0313", 0x055A: "\u0313", 0x02BD: "\u0314", 0x0485: "\u0314", 0x0559: "\u0314", 0x02D4: "\u031D", 0x02D5: "\u031E", 0x02D6: "\u031F", 0x02D7: "\u0320", 0x02B2: "\u0321", 0x02CC: "\u0329", 0x02B7: "\u032B", 0x02CD: "\u0331", 0x005F: "\u0332", 0x204E: "\u0359", } // getCurrentFont returns the font on top of the font stack, or DefaultFont if the font stack is // empty. func (to *textObject) getCurrentFont() *model.PdfFont { if to.fontStack.empty() { common.Log.Debug("ERROR: No font defined. Using default.") return model.DefaultFont() } return to.fontStack.peek() } // getFont returns the font named `name` if it exists in the page's resources or an error if it // doesn't. It caches the returned fonts. func (to *textObject) getFont(name string) (*model.PdfFont, error) { if to.e.fontCache != nil { to.e.accessCount++ entry, ok := to.e.fontCache[name] if ok { entry.access = to.e.accessCount return entry.font, nil } } // Font not in cache. Load it. font, err := to.getFontDirect(name) if err != nil { return nil, err } if to.e.fontCache != nil { entry := fontEntry{font, to.e.accessCount} // Eject a victim if the cache is full. if len(to.e.fontCache) >= maxFontCache { var names []string for name := range to.e.fontCache { names = append(names, name) } sort.Slice(names, func(i, j int) bool { return to.e.fontCache[names[i]].access < to.e.fontCache[names[j]].access }) delete(to.e.fontCache, names[0]) } to.e.fontCache[name] = entry } return font, nil } // fontEntry is a entry in the font cache. type fontEntry struct { font *model.PdfFont // The font being cached. access int64 // Last access. Used to determine LRU cache victims. } // maxFontCache is the maximum number of PdfFont's in fontCache. const maxFontCache = 10 // getFontDirect returns the font named `name` if it exists in the page's resources or an error if // it doesn't. Accesses page resources directly (not cached). func (to *textObject) getFontDirect(name string) (*model.PdfFont, error) { fontObj, err := to.getFontDict(name) if err != nil { return nil, err } font, err := model.NewPdfFontFromPdfObject(fontObj) if err != nil { common.Log.Debug("getFontDirect: NewPdfFontFromPdfObject failed. name=%#q err=%v", name, err) } return font, err } // getFontDict returns the font dict with key `name` if it exists in the page's or form's Font // resources or an error if it doesn't. func (to *textObject) getFontDict(name string) (fontObj core.PdfObject, err error) { resources := to.resources if resources == nil { common.Log.Debug("getFontDict. No resources. name=%#q", name) return nil, nil } fontObj, found := resources.GetFontByName(core.PdfObjectName(name)) if !found { common.Log.Debug("ERROR: getFontDict: Font not found: name=%#q", name) return nil, errors.New("font not in resources") } return fontObj, nil }