#--------------------------------------------------------------------------------------- # Copyright (c) 2001-2011 by PDFTron Systems Inc. All Rights Reserved. # Consult legal.txt regarding legal and license information. #--------------------------------------------------------------------------------------- require '../../../Lib/PDFNetRuby' include PDFNetRuby # Relative path to the folder containing the test files. input_path = "../../TestFiles/" output_path = "../../TestFiles/Output/" PDFNet.Initialize() doc = PDFDoc.new() # ElementBuilder is used to build new Element objects eb = ElementBuilder.new() # ElementWriter is used to write Elements to the page writer = ElementWriter.new() # Start a new page ------------------------------------ page = doc.PageCreate(Rect.new(0, 0, 612, 794)) writer.Begin(page) # begin writing to the page # Create an Image that can be reused in the document or on the same page. img = Image.Create(doc.GetSDFDoc(), input_path + "peppers.jpg") element = eb.CreateImage(img, Matrix2D.new(img.GetImageWidth()/2, -145, 20, img.GetImageHeight()/2, 200, 150)) writer.WritePlacedElement(element) gstate = element.GetGState() # use the same image (just change its matrix) gstate.SetTransform(200, 0, 0, 300, 50, 450) writer.WritePlacedElement(element) # use the same image again (just change its matrix) writer.WritePlacedElement(eb.CreateImage(img, 300, 600, 200, -150)) writer.End() # save changes to the current page doc.PagePushBack(page) # Start a new page ------------------------------------ # Construct and draw a path object using different styles page = doc.PageCreate(Rect.new(0, 0, 612, 794)) writer.Begin(page) # begin writing to this page eb.Reset() # Reset the GState to default eb.PathBegin() # start constructing the path eb.MoveTo(306, 396) eb.CurveTo(681, 771, 399.75, 864.75, 306, 771) eb.CurveTo(212.25, 864.75, -69, 771, 306, 396) eb.ClosePath() element = eb.PathEnd() # the path is now finished element.SetPathFill(true) # the path should be filled # Set the path color space and color gstate = element.GetGState() gstate.SetFillColorSpace(ColorSpace.CreateDeviceCMYK()) gstate.SetFillColor(ColorPt.new(1, 0, 0, 0)) # cyan gstate.SetTransform(0.5, 0, 0, 0.5, -20, 300) writer.WritePlacedElement(element) # Draw the same path using a different stroke color element.SetPathStroke(true) # this path is should be filled and stroked gstate.SetFillColor(ColorPt.new(0, 0, 1, 0)) # yellow gstate.SetStrokeColorSpace(ColorSpace.CreateDeviceRGB()) gstate.SetStrokeColor(ColorPt.new(1, 0, 0)) # red gstate.SetTransform(0.5, 0, 0, 0.5, 280, 300) gstate.SetLineWidth(20) writer.WritePlacedElement(element) # Draw the same path with a given dash pattern element.SetPathFill(false) # this path should be only stroked gstate.SetStrokeColor(ColorPt.new(0,0,1)) # blue gstate.SetTransform(0.5, 0, 0, 0.5, 280, 0) gstate.SetDashPattern([30], 0) writer.WritePlacedElement(element) # Use the path as a clipping path writer.WriteElement(eb.CreateGroupBegin()) # Save the graphics state # Start constructing the new path (the old path was lost when we created # a new Element using CreateGroupBegin()). eb.PathBegin() eb.MoveTo(306, 396) eb.CurveTo(681, 771, 399.75, 864.75, 306, 771) eb.CurveTo(212.25, 864.75, -69, 771, 306, 396) eb.ClosePath() element = eb.PathEnd() # path is now constructed element.SetPathClip(true) # this path is a clipping path element.SetPathStroke(true) # this path should be filled and stroked gstate = element.GetGState() gstate.SetTransform(0.5, 0, 0, 0.5, -20, 0) writer.WriteElement(element) writer.WriteElement(eb.CreateImage(img, 100, 300, 400, 600)) writer.WriteElement(eb.CreateGroupEnd()) # Restore the graphics state writer.End() # save changes to the current page doc.PagePushBack(page) # Start a new page ------------------------------------ page = doc.PageCreate(Rect.new(0, 0, 612, 794)) writer.Begin(page) # begin writing to this page eb.Reset() # Reset the GState to default # Begin writing a block of text element = eb.CreateTextBegin(Font.Create(doc.GetSDFDoc(), Font::E_times_roman), 12) writer.WriteElement(element) element = eb.CreateTextRun("Hello World!") element.SetTextMatrix(10, 0, 0, 10, 0, 600) element.GetGState().SetLeading(15) # Set the spacing between lines writer.WriteElement(element) writer.WriteElement(eb.CreateTextNewLine()) # New line element = eb.CreateTextRun("Hello World!") gstate = element.GetGState() gstate.SetTextRenderMode(GState::E_stroke_text) gstate.SetCharSpacing(-1.25) gstate.SetWordSpacing(-1.25) writer.WriteElement(element) writer.WriteElement(eb.CreateTextNewLine()) # New line element = eb.CreateTextRun("Hello World!") gstate = element.GetGState() gstate.SetCharSpacing(0) gstate.SetWordSpacing(0) gstate.SetLineWidth(3) gstate.SetTextRenderMode(GState::E_fill_stroke_text) gstate.SetStrokeColorSpace(ColorSpace.CreateDeviceRGB()) gstate.SetStrokeColor(ColorPt.new(1, 0, 0)) # red gstate.SetFillColorSpace(ColorSpace.CreateDeviceCMYK()) gstate.SetFillColor(ColorPt.new(1, 0, 0, 0)) # cyan writer.WriteElement(element) writer.WriteElement(eb.CreateTextNewLine()) # New line # Set text as a clipping path to the image. element = eb.CreateTextRun("Hello World!") gstate = element.GetGState() gstate.SetTextRenderMode(GState::E_clip_text) writer.WriteElement(element) # Finish the block of text writer.WriteElement(eb.CreateTextEnd()) # Draw an image that will be clipped by the above text writer.WriteElement(eb.CreateImage(img, 10, 100, 1300, 720)) writer.End() # save changes to the current page doc.PagePushBack(page) # Start a new page ------------------------------------ # # The example illustrates how to embed the external font in a PDF document. # The example also shows how ElementReader can be used to copy and modify # Elements between pages. reader = ElementReader.new() # Start reading Elements from the last page. We will copy all Elements to # a new page but will modify the font associated with text. reader.Begin(doc.GetPage(doc.GetPageCount())) page = doc.PageCreate(Rect.new(0, 0, 1300, 794)) writer.Begin(page) # begin writing to this page eb.Reset() # Reset the GState to default # Embed an external font in the document. font = Font.CreateTrueTypeFont(doc.GetSDFDoc(), (input_path + "font.ttf")) element = reader.Next() while !element.nil? do # Read page contents if element.GetType() == Element::E_text element.GetGState().SetFont(font, 12) end writer.WriteElement(element) element = reader.Next() end reader.End() writer.End() # save changes to the current page doc.PagePushBack(page) # Start a new page ------------------------------------ # # The example illustrates how to embed the external font in a PDF document. # The example also shows how ElementReader can be used to copy and modify # Elements between pages. # Start reading Elements from the last page. We will copy all Elements to # a new page but will modify the font associated with text. reader.Begin(doc.GetPage(doc.GetPageCount())) page = doc.PageCreate(Rect.new(0, 0, 1300, 794)) writer.Begin(page) # begin writing to this page eb.Reset() # Reset the GState to default # Embed an external font in the document. font2 = Font.CreateType1Font(doc.GetSDFDoc(), (input_path + "Misc-Fixed.pfa")) element = reader.Next() while !element.nil? do if element.GetType() == Element::E_text element.GetGState().SetFont(font2, 12) end writer.WriteElement(element) element = reader.Next() end reader.End() writer.End() # save changes to the current page doc.PagePushBack(page) # Start a new page ------------------------------------ page = doc.PageCreate() writer.Begin(page) # begin writing to this page eb.Reset() # Reset the GState to default # Begin writing a block of text element = eb.CreateTextBegin(Font.Create(doc.GetSDFDoc(), Font::E_times_roman), 12) element.SetTextMatrix(1.5, 0, 0, 1.5, 50, 600) element.GetGState().SetLeading(15) # Set the spacing between lines writer.WriteElement(element) para = "A PDF text object consists of operators that can show " + "text strings, move the text position, and set text state and certain " + "other parameters. In addition, there are three parameters that are " + "defined only within a text object and do not persist from one text " + "object to the next: Tm, the text matrix, Tlm, the text line matrix, " + "Trm, the text rendering matrix, actually just an intermediate result " + "that combines the effects of text state parameters, the text matrix " + "(Tm), and the current transformation matrix" para_end = para.length text_run = 0 para_width = 300 # paragraph width is 300 units cur_width = 0 while text_run < para_end do text_run_end = para.index(' ', text_run) if text_run_end == nil text_run_end = para_end - 1 end text = para[text_run..text_run_end] element = eb.CreateTextRun(text) if cur_width + element.GetTextLength() < para_width writer.WriteElement(element) cur_width = cur_width + element.GetTextLength() else writer.WriteElement(eb.CreateTextNewLine()) # new line element = eb.CreateTextRun(text) cur_width = element.GetTextLength() writer.WriteElement(element) end text_run = text_run_end + 1 end # ----------------------------------------------------------------------- # The following code snippet illustrates how to adjust spacing between # characters (text runs). element = eb.CreateTextNewLine() writer.WriteElement(element) # Skip 2 lines writer.WriteElement(element) writer.WriteElement(eb.CreateTextRun("An example of space adjustments between inter-characters:")) writer.WriteElement(eb.CreateTextNewLine()) # Write string "AWAY" without space adjustments between characters. element = eb.CreateTextRun("AWAY") writer.WriteElement(element) writer.WriteElement(eb.CreateTextNewLine()) # Write string "AWAY" with space adjustments between characters. element = eb.CreateTextRun("A") writer.WriteElement(element) element = eb.CreateTextRun("W") element.SetPosAdjustment(140) writer.WriteElement(element) element = eb.CreateTextRun("A") element.SetPosAdjustment(140) writer.WriteElement(element) element = eb.CreateTextRun("Y again") element.SetPosAdjustment(115) writer.WriteElement(element) # Draw the same strings using direct content output... writer.Flush() # flush pending Element writing operations. # You can also write page content directly to the content stream using # ElementWriter.WriteString(...) and ElementWriter.WriteBuffer(...) methods. # Note that if you are planning to use these functions you need to be familiar # with PDF page content operators (see Appendix A in PDF Reference Manual). # Because it is easy to make mistakes during direct output we recommend that # you use ElementBuilder and Element interface instead. writer.WriteString("T* T* ") # Skip 2 lines writer.WriteString("(Direct output to PDF page content stream:) Tj T* ") writer.WriteString("(AWAY) Tj T* ") writer.WriteString("[(A)140(W)140(A)115(Y again)] TJ ") # Finish the block of text writer.WriteElement(eb.CreateTextEnd()) writer.End() # save changes to the current page doc.PagePushBack(page) # Start a new page ------------------------------------ # Image Masks # # In the opaque imaging model, images mark all areas they occupy on the page as # if with opaque paint. All portions of the image, whether black, white, gray, # or color, completely obscure any marks that may previously have existed in the # same place on the page. # In the graphic arts industry and page layout applications, however, it is common # to crop or 'mask out' the background of an image and then place the masked image # on a different background, allowing the existing background to show through the # masked areas. This sample illustrates how to use image masks. page = doc.PageCreate() writer.Begin(page) # begin writing to the page # Create the Image Mask imgf = StdFile.new((input_path + "imagemask.dat"), StdFile::E_read_mode) mask_read = FilterReader.new(imgf) device_gray = ColorSpace.CreateDeviceGray() mask = Image.Create(doc.GetSDFDoc(), mask_read, 64, 64, 1, device_gray, Image::E_ascii_hex) mask.GetSDFObj().PutBool("ImageMask", true) element = eb.CreateRect(0, 0, 612, 794) element.SetPathStroke(false) element.SetPathFill(true) element.GetGState().SetFillColorSpace(device_gray) element.GetGState().SetFillColor(ColorPt.new(0.8)) writer.WritePlacedElement(element) element = eb.CreateImage(mask, Matrix2D.new(200, 0, 0, -200, 40, 680)) element.GetGState().SetFillColor(ColorPt.new(0.1)) writer.WritePlacedElement(element) element.GetGState().SetFillColorSpace(ColorSpace.CreateDeviceRGB()) element.GetGState().SetFillColor(ColorPt.new(1, 0, 0)) element = eb.CreateImage(mask, Matrix2D.new(200, 0, 0, -200, 320, 680)) writer.WritePlacedElement(element) element.GetGState().SetFillColor(ColorPt.new(0, 1, 0)) element = eb.CreateImage(mask, Matrix2D.new(200, 0, 0, -200, 40, 380)) writer.WritePlacedElement(element) # This sample illustrates Explicit Masking. img = Image.Create(doc.GetSDFDoc(), (input_path + "peppers.jpg")) # mask is the explicit mask for the primary (base) image img.SetMask(mask) element = eb.CreateImage(img, Matrix2D.new(200, 0, 0, -200, 320, 380)) writer.WritePlacedElement(element) writer.End() # save changes to the current page doc.PagePushBack(page) # Transparency sample ---------------------------------- # Start a new page ------------------------------------- page = doc.PageCreate() writer.Begin(page) # begin writing to this page eb.Reset() # Reset the GState to default # Write some transparent text at the bottom of the page. element = eb.CreateTextBegin(Font.Create(doc.GetSDFDoc(), Font::E_times_roman), 100) # Set the text knockout attribute. Text knockout must be set outside of # the text group. gstate = element.GetGState() gstate.SetTextKnockout(false) gstate.SetBlendMode(GState::E_bl_difference) writer.WriteElement(element) element = eb.CreateTextRun("Transparency") element.SetTextMatrix(1, 0, 0, 1, 30, 30) gstate = element.GetGState() gstate.SetFillColorSpace(ColorSpace.CreateDeviceCMYK()) gstate.SetFillColor(ColorPt.new(1, 0, 0, 0)) gstate.SetFillOpacity(0.5) writer.WriteElement(element) # Write the same text on top the old; shifted by 3 points element.SetTextMatrix(1, 0, 0, 1, 33, 33) gstate.SetFillColor(ColorPt.new(0, 1, 0, 0)) gstate.SetFillOpacity(0.5) writer.WriteElement(element) writer.WriteElement(eb.CreateTextEnd()) # Draw three overlapping transparent circles. eb.PathBegin() # start constructing the path eb.MoveTo(459.223, 505.646) eb.CurveTo(459.223, 415.841, 389.85, 343.04, 304.273, 343.04) eb.CurveTo(218.697, 343.04, 149.324, 415.841, 149.324, 505.646) eb.CurveTo(149.324, 595.45, 218.697, 668.25, 304.273, 668.25) eb.CurveTo(389.85, 668.25, 459.223, 595.45, 459.223, 505.646) element = eb.PathEnd() element.SetPathFill(true) gstate = element.GetGState() gstate.SetFillColorSpace(ColorSpace.CreateDeviceRGB()) gstate.SetFillColor(ColorPt.new(0, 0, 1)) # Blue Circle gstate.SetBlendMode(GState::E_bl_normal) gstate.SetFillOpacity(0.5) writer.WriteElement(element) # Translate relative to the Blue Circle gstate.SetTransform(1, 0, 0, 1, 113, -185) gstate.SetFillColor(ColorPt.new(0, 1, 0)) # Green Circle gstate.SetFillOpacity(0.5) writer.WriteElement(element) # Translate relative to the Green Circle gstate.SetTransform(1, 0, 0, 1, -220, 0) gstate.SetFillColor(ColorPt.new(1, 0, 0)) # Red Circle gstate.SetFillOpacity(0.5) writer.WriteElement(element) writer.End() # save changes to the current page doc.PagePushBack(page) # End page ------------------------------------ doc.Save((output_path + "element_builder.pdf"), SDFDoc::E_remove_unused) doc.Close() puts "Done. Result saved in element_builder.pdf..."