# -*- encoding: utf-8 -*- require 'test_helper' require 'hexapdf/document' require 'hexapdf/name_tree_node' require 'hexapdf/number_tree_node' describe HexaPDF::Utils::SortedTreeNode do before do @doc = HexaPDF::Document.new @root = @doc.add({}, type: HexaPDF::NameTreeNode) end def add_multilevel_entries @kid11 = @doc.add({Limits: ['c', 'f'], Names: ['c', 1, 'f', 1]}, type: HexaPDF::NameTreeNode) @kid12 = @doc.add(Limits: ['i', 'm'], Names: ['i', 1, 'm', 1]) ref = HexaPDF::Reference.new(@kid11.oid, @kid11.gen) @kid1 = @doc.add(Limits: ['c', 'm'], Kids: [ref, @kid12]) @kid21 = @doc.add({Limits: ['o', 'q'], Names: ['o', 1, 'q', 1]}, type: HexaPDF::NameTreeNode) @kid221 = @doc.add({Limits: ['s', 'u'], Names: ['s', 1, 'u', 1]}, type: HexaPDF::NameTreeNode) @kid22 = @doc.add({Limits: ['s', 'u'], Kids: [@kid221]}, type: HexaPDF::NameTreeNode) @kid2 = @doc.add({Limits: ['o', 'u'], Kids: [@kid21, @kid22]}, type: HexaPDF::NameTreeNode) @root[:Kids] = [@kid1, @kid2] end it "must always be indirect" do assert(@root.must_be_indirect?) end describe "add" do it "works with the root node alone" do @root.add_entry('c', 1) @root.add_entry('a', 2) @root.add_entry('e', 3) assert_equal(['a', 2, 'c', 1, 'e', 3], @root[:Names]) refute(@root[:Limits]) end it "replaces an existing entry if overwrite is true" do assert(@root.add_entry('a', 2)) assert(@root.add_entry('a', 5)) assert_equal(['a', 5], @root[:Names]) end it "doesn't replace an existing entry if overwrite is false" do assert(@root.add_entry('a', 2)) refute(@root.add_entry('a', 5, overwrite: false)) assert_equal(['a', 2], @root[:Names]) end it "works with one level of intermediate nodes" do kid1 = HexaPDF::NameTreeNode.new({Limits: ['m', 'm'], Names: ['m', 1]}, document: @doc) kid2 = HexaPDF::NameTreeNode.new({Limits: ['t', 't'], Names: ['t', 1]}, document: @doc) @root[:Kids] = [kid1, kid2] @root.add_entry('c', 1) @root.add_entry('d', 1) @root.add_entry('p', 1) @root.add_entry('r', 1) @root.add_entry('u', 1) assert_equal(['c', 'm'], kid1[:Limits]) assert_equal(['c', 1, 'd', 1, 'm', 1], kid1[:Names]) assert_equal(['p', 'u'], kid2[:Limits]) assert_equal(['p', 1, 'r', 1, 't', 1, 'u', 1], kid2[:Names]) end it "works with multiple levels of intermediate nodes" do add_multilevel_entries @root.add_entry('a', 1) @root.add_entry('e', 1) @root.add_entry('g', 1) @root.add_entry('j', 1) @root.add_entry('n', 1) @root.add_entry('p', 1) @root.add_entry('r', 1) @root.add_entry('v', 1) assert_equal(['a', 'm'], @kid1[:Limits]) assert_equal(['a', 'f'], @kid11[:Limits]) assert_equal(['a', 1, 'c', 1, 'e', 1, 'f', 1], @kid11[:Names]) assert_equal(['g', 'm'], @kid12[:Limits]) assert_equal(['g', 1, 'i', 1, 'j', 1, 'm', 1], @kid12[:Names]) assert_equal(['n', 'v'], @kid2[:Limits]) assert_equal(['n', 'q'], @kid21[:Limits]) assert_equal(['n', 1, 'o', 1, 'p', 1, 'q', 1], @kid21[:Names]) assert_equal(['r', 'v'], @kid22[:Limits]) assert_equal(['r', 'v'], @kid221[:Limits]) assert_equal(['r', 1, 's', 1, 'u', 1, 'v', 1], @kid221[:Names]) end it "splits nodes if needed" do @doc.config['sorted_tree.max_leaf_node_size'] = 4 %w[a c e m k i g d b l j f h].each {|key| @root.add_entry(key, 1) } refute(@root.value.key?(:Limits)) refute(@root.value.key?(:Names)) assert_equal(6, @root[:Kids].size) assert_equal(['a', 1, 'b', 1], @root[:Kids][0][:Names]) assert_equal(['a', 'b'], @root[:Kids][0][:Limits]) assert_equal(['c', 1, 'd', 1], @root[:Kids][1][:Names]) assert_equal(['c', 'd'], @root[:Kids][1][:Limits]) assert_equal(['e', 1, 'f', 1], @root[:Kids][2][:Names]) assert_equal(['e', 'f'], @root[:Kids][2][:Limits]) assert_equal(['g', 1, 'h', 1, 'i', 1], @root[:Kids][3][:Names]) assert_equal(['g', 'i'], @root[:Kids][3][:Limits]) assert_equal(['j', 1, 'k', 1], @root[:Kids][4][:Names]) assert_equal(['j', 'k'], @root[:Kids][4][:Limits]) assert_equal(['l', 1, 'm', 1], @root[:Kids][5][:Names]) assert_equal(['l', 'm'], @root[:Kids][5][:Limits]) end it "fails if not called on the root node" do @root[:Limits] = ['a', 'c'] assert_raises(HexaPDF::Error) { @root.add_entry('b', 1) } end it "fails if the key is not a string" do assert_raises(ArgumentError) { @root.add_entry(5, 1) } end end describe "find" do it "finds the correct entry" do add_multilevel_entries assert_equal(1, @root.find_entry('i')) assert_equal(1, @root.find_entry('q')) end it "automatically dereferences the entry's value" do add_multilevel_entries obj = @doc.add(1) @kid11[:Names][1] = HexaPDF::Reference.new(obj.oid, obj.gen) assert_equal(obj, @root.find_entry('c')) end it "returns nil for non-existing entries" do add_multilevel_entries assert_nil(@root.find_entry('non')) end it "works when no entry exists" do assert_nil(@root.find_entry('non')) end end describe "delete" do it "works with only the root node" do %w[a b c d e f g].each {|name| @root.add_entry(name, 1) } %w[g b a unknown e d c].each {|name| @root.delete_entry(name) } refute(@root.value.key?(:Kids)) refute(@root.value.key?(:Limits)) assert_equal(['f', 1], @root[:Names]) assert_equal(1, @root.delete_entry('f')) end it "works with multiple levels of intermediate nodes" do add_multilevel_entries %w[c f i m unknown o q s u].each {|name| @root.delete_entry(name) } refute(@root.value.key?(:Names)) refute(@root.value.key?(:Limits)) assert(@root[:Kids].empty?) end it "works on an uninitalized tree" do assert_nil(@root.delete_entry('non')) end it "fails if not called on the root node" do @root[:Limits] = ['a', 'c'] assert_raises(HexaPDF::Error) { @root.delete_entry('b') } end end describe "each" do it "enumerates in the key-value pairs in sorted order" do add_multilevel_entries assert_equal(['c', 1, 'f', 1, 'i', 1, 'm', 1, 'o', 1, 'q', 1, 's', 1, 'u', 1], @root.each_entry.to_a.flatten) end it "automatically dereferences the yielded values" do add_multilevel_entries obj = @doc.add(1) @kid11[:Names][1] = HexaPDF::Reference.new(obj.oid, obj.gen) assert_equal(['c', obj, 'f', 1], @kid11.each_entry.to_a.flatten) end it "works on an uninitalized tree" do assert_equal([], @root.each_entry.to_a) end end describe "perform_validation" do before do add_multilevel_entries end it "checks that all kid objects are indirect objects" do @root[:Kids][0] = HexaPDF::Reference.new(@kid1.oid, @kid1.gen) assert(@root.validate) @root[:Kids][0] = @kid1 @kid1.oid = 0 refute(@root.validate do |message, c| assert_match(/must be indirect objects/, message) refute(c) end) end it "checks that leaf node containers have an even number of entries" do @kid11[:Names].delete_at(0) refute(@kid11.validate do |message, c| assert_match(/odd number/, message) refute(c) end) end it "checks that the keys are of the correct type" do @kid11[:Names][2] = 5 refute(@kid11.validate do |message, c| assert_match(/must be a String object/, message) refute(c) end) end it "checks that the keys are correctly sorted" do @kid11[:Names][2] = 'a' refute(@kid11.validate do |message, c| assert_match(/not correctly sorted/, message) refute(c) end) end end it "works equally well with a NumberTreeNode" do root = HexaPDF::NumberTreeNode.new({}, document: @doc) root.add_entry(2, 1) root.add_entry(1, 2) assert_equal([1, 2, 2, 1], root[:Nums]) end end