# -*- encoding: utf-8 -*- require 'test_helper' require 'hexapdf/writer' require 'hexapdf/document' require 'stringio' describe HexaPDF::Writer do before do @std_input_io = StringIO.new(<<~EOF.force_encoding(Encoding::BINARY)) %PDF-1.7 %\xCF\xEC\xFF\xE8\xD7\xCB\xCD 1 0 obj 10 endobj 2 0 obj 20 endobj xref 0 3 0000000000 65535 f 0000000018 00000 n 0000000036 00000 n trailer <> startxref 54 %%EOF 2 0 obj <>stream Some data! endstream endobj xref 2 1 0000000162 00000 n trailer <> startxref 219 %%EOF 3 0 obj <> endobj xref 3 1 0000000296 00000 n trailer <>/Info 3 0 R/Prev 219>> startxref 349 %%EOF EOF @compressed_input_io = StringIO.new(<<~EOF.force_encoding(Encoding::BINARY)) %PDF-1.7 %\xCF\xEC\xFF\xE8\xD7\xCB\xCD 5 0 obj <>stream x\xDA3T0P04P\x00\x00\x04\xA1\x01# endstream endobj 2 0 obj 20 endobj 3 0 obj <>/Length 31>>stream x\xDAcb`\xF8\xFF\x9F\x89\x89\x95\x91\x91\xE9\x7F\x19\x03\x03\x13\x83\x10\x88he`\x00\x00B4\x04\x1E endstream endobj startxref 141 %%EOF 6 0 obj <> endobj 2 0 obj <>stream Some data! endstream endobj 4 0 obj <>/Info 6 0 R/Prev 141/W[1 2 2]/Index[2 1 4 1 6 1]/Filter/FlateDecode/DecodeParms<>/Length 22>>stream x\xDAcbdlg``b`\xB0\x04\x93\x93\x18\x18\x00\f\e\x01[ endstream endobj startxref 448 %%EOF EOF end def assert_document_conversion(input_io) document = HexaPDF::Document.new(io: input_io) document.trailer.info[:Producer] = "unknown" output_io = StringIO.new(''.force_encoding(Encoding::BINARY)) start_xref_offset, xref_section = HexaPDF::Writer.write(document, output_io) assert_kind_of(HexaPDF::XRefSection, xref_section) assert_kind_of(Integer, start_xref_offset) assert_equal(input_io.string, output_io.string) end it "writes a complete document" do assert_document_conversion(@std_input_io) assert_document_conversion(@compressed_input_io) end describe "write_incremental" do it "writes a document in incremental mode" do doc = HexaPDF::Document.new(io: @std_input_io) doc.pages.add output_io = StringIO.new HexaPDF::Writer.write(doc, output_io, incremental: true) assert_equal(output_io.string[0, @std_input_io.string.length], @std_input_io.string) doc = HexaPDF::Document.new(io: output_io) assert_equal(4, doc.revisions.count) assert_equal(2, doc.revisions.current.each.to_a.size) end it "uses an xref stream if the document already contains at least one" do doc = HexaPDF::Document.new(io: @compressed_input_io) doc.pages.add output_io = StringIO.new HexaPDF::Writer.write(doc, output_io, incremental: true) refute_match(/^trailer/, output_io.string) end it "raises an error if the used encryption was changed" do io = StringIO.new doc = HexaPDF::Document.new doc.encrypt doc.write(io) doc = HexaPDF::Document.new(io: io) doc.encrypt(owner_password: 'test') assert_raises(HexaPDF::Error) { doc.write('notused', incremental: true) } end end it "moves modified objects into the last revision" do io = StringIO.new io2 = StringIO.new document = HexaPDF::Document.new document.pages.add HexaPDF::Writer.new(document, io).write document = HexaPDF::Document.new(io: io) document.pages.add HexaPDF::Writer.new(document, io2).write_incremental document = HexaPDF::Document.new(io: io2) document.revisions.add document.pages.add HexaPDF::Writer.new(document, io).write document = HexaPDF::Document.new(io: io) assert_equal(3, document.revisions.count) assert_equal(1, document.revisions.all[0].object(2)[:Kids].length) assert_equal(2, document.revisions.all[1].object(2)[:Kids].length) assert_equal(3, document.revisions.all[2].object(2)[:Kids].length) end it "creates an xref stream if no xref stream is in a revision but object streams are" do document = HexaPDF::Document.new document.add({Type: :ObjStm}) HexaPDF::Writer.new(document, StringIO.new).write assert_equal(:XRef, document.object(4).type) end it "creates an xref stream if a previous revision had one" do document = HexaPDF::Document.new document.pages.add io = StringIO.new HexaPDF::Writer.new(document, io).write document = HexaPDF::Document.new(io: io) document.pages.add document.add({Type: :ObjStm}) io2 = StringIO.new HexaPDF::Writer.new(document, io2).write_incremental document = HexaPDF::Document.new(io: io2) document.pages.add HexaPDF::Writer.new(document, io).write_incremental document = HexaPDF::Document.new(io: io) assert_equal(3, document.revisions.count) assert(document.revisions.all[0].none? {|obj| obj.type == :XRef }) assert(document.revisions.all[1].one? {|obj| obj.type == :XRef }) assert(document.revisions.all[2].one? {|obj| obj.type == :XRef }) end it "doesn't create an xref stream if one was just used for an XRefStm entry" do # The following document's structure is built like a typical MS Word created PDF input = StringIO.new(<<~EOF.force_encoding(Encoding::BINARY)) %PDF-1.2 %\xCF\xEC\xFF\xE8\xD7\xCB\xCD 1 0 obj <> endobj 2 0 obj <> endobj 3 0 obj <>>> endobj 5 0 obj <> endobj 4 0 obj <>/Length 33>>stream x\xDAcb`\xF8\xFF\x9F\x89Q\x88\x91\x91\x89A\x97\x81\x81\x89\xC1\x18D\xB4\x80\x88\xD3\f\f\x00C\xDE\x03\xCF endstream endobj xref 0 6 0000000000 65535 f 0000000018 00000 n 0000000063 00000 n 0000000114 00000 n 0000000246 00000 n 0000000193 00000 n trailer <> startxref 443 %%EOF xref 0 0 trailer <> startxref 629 %%EOF EOF document = HexaPDF::Document.new(io: input) document.pages.add io = StringIO.new HexaPDF::Writer.new(document, io).write_incremental document = HexaPDF::Document.new(io: io) refute(document.trailer.key?(:Type)) end it "raises an error if the class is misused and an xref section contains invalid entries" do document = HexaPDF::Document.new io = StringIO.new writer = HexaPDF::Writer.new(document, io) xref_section = HexaPDF::XRefSection.new xref_section.add_compressed_entry(1, 2, 3) assert_raises(HexaPDF::Error) { writer.send(:write_xref_section, xref_section) } end it "removes the /XRefStm entry in a trailer" do io = StringIO.new doc = HexaPDF::Document.new doc.trailer[:XRefStm] = 1234 doc.write(io) doc = HexaPDF::Document.new(io: io) refute(doc.trailer.key?(:XRefStm)) end end