# # This file is part of ruby-ffi. # For licensing, see LICENSE.SPECS # require File.expand_path(File.join(File.dirname(__FILE__), "spec_helper")) describe "Struct aligns fields correctly" do it "char, followed by an int" do class CIStruct < FFI::Struct layout :c => :char, :i => :int end expect(CIStruct.size).to eq(8) end it "short, followed by an int" do class SIStruct < FFI::Struct layout :s => :short, :i => :int end expect(SIStruct.size).to eq(8) end it "int, followed by an int" do class IIStruct < FFI::Struct layout :i1 => :int, :i => :int end expect(IIStruct.size).to eq(8) end it "long long, followed by an int" do class LLIStruct < FFI::Struct layout :l => :long_long, :i => :int end expect(LLIStruct.size).to eq(FFI::TYPE_UINT64.alignment == 4 ? 12 : 16) end end describe "Struct tests" do StructTypes = { 's8' => :char, 's16' => :short, 's32' => :int, 's64' => :long_long, 'long' => :long, 'f32' => :float, 'f64' => :double } module LibTest extend FFI::Library ffi_lib TestLibrary::PATH attach_function :ptr_ret_pointer, [ :pointer, :int], :string begin attach_function :ptr_ret_int32_t, [ :pointer, :int ], :int rescue FFI::NotFoundError # NetBSD uses #define instead of typedef for these attach_function :ptr_ret_int32_t, :ptr_ret___int32_t, [ :pointer, :int ], :int end attach_function :ptr_from_address, [ :ulong ], :pointer attach_function :string_equals, [ :string, :string ], :int [ 's8', 's16', 's32', 's64', 'f32', 'f64', 'long' ].each do |t| attach_function "struct_align_#{t}", [ :pointer ], StructTypes[t] end end class PointerMember < FFI::Struct layout :pointer, :pointer end class StringMember < FFI::Struct layout :string, :string end it "Struct#[:pointer]" do magic = 0x12345678 mp = FFI::MemoryPointer.new :long mp.put_long(0, magic) smp = FFI::MemoryPointer.new :pointer smp.put_pointer(0, mp) s = PointerMember.new smp expect(s[:pointer]).to eq(mp) end it "Struct#[:pointer].nil? for NULL value" do magic = 0x12345678 mp = FFI::MemoryPointer.new :long mp.put_long(0, magic) smp = FFI::MemoryPointer.new :pointer smp.put_pointer(0, nil) s = PointerMember.new smp expect(s[:pointer].null?).to be true end it "Struct#[:pointer]=" do magic = 0x12345678 mp = FFI::MemoryPointer.new :long mp.put_long(0, magic) smp = FFI::MemoryPointer.new :pointer s = PointerMember.new smp s[:pointer] = mp expect(smp.get_pointer(0)).to eq(mp) end it "Struct#[:pointer]=struct" do smp = FFI::MemoryPointer.new :pointer s = PointerMember.new smp expect { s[:pointer] = s }.not_to raise_error Exception expect { foo = s[:pointer] }.not_to raise_error Exception end it "Struct#[:pointer]=nil" do smp = FFI::MemoryPointer.new :pointer s = PointerMember.new smp s[:pointer] = nil expect(smp.get_pointer(0)).to be_null end it "Struct#[:string]" do magic = "test" mp = FFI::MemoryPointer.new 1024 mp.put_string(0, magic) smp = FFI::MemoryPointer.new :pointer smp.put_pointer(0, mp) s = StringMember.new smp expect(s[:string]).to eq(magic) end it "Struct#[:string].nil? for NULL value" do smp = FFI::MemoryPointer.new :pointer smp.put_pointer(0, nil) s = StringMember.new smp expect(s[:string]).to be_nil end it "Struct#layout works with :name, :type pairs" do class PairLayout < FFI::Struct layout :a, :int, :b, :long_long end ll_off = (FFI::TYPE_UINT64.alignment == 4 ? 4 : 8) expect(PairLayout.size).to eq((ll_off + 8)) mp = FFI::MemoryPointer.new(PairLayout.size) s = PairLayout.new mp s[:a] = 0x12345678 expect(mp.get_int(0)).to eq(0x12345678) s[:b] = 0xfee1deadbeef expect(mp.get_int64(ll_off)).to eq(0xfee1deadbeef) end it "Struct#layout works with :name, :type, offset tuples" do class PairLayout < FFI::Struct layout :a, :int, 0, :b, :long_long, 4 end expect(PairLayout.size).to eq((FFI::TYPE_UINT64.alignment == 4 ? 12 : 16)) mp = FFI::MemoryPointer.new(PairLayout.size) s = PairLayout.new mp s[:a] = 0x12345678 expect(mp.get_int(0)).to eq(0x12345678) s[:b] = 0xfee1deadbeef expect(mp.get_int64(4)).to eq(0xfee1deadbeef) end it "Struct#layout works with mixed :name,:type and :name,:type,offset" do class MixedLayout < FFI::Struct layout :a, :int, :b, :long_long, 4 end expect(MixedLayout.size).to eq((FFI::TYPE_UINT64.alignment == 4 ? 12 : 16)) mp = FFI::MemoryPointer.new(MixedLayout.size) s = MixedLayout.new mp s[:a] = 0x12345678 expect(mp.get_int(0)).to eq(0x12345678) s[:b] = 0xfee1deadbeef expect(mp.get_int64(4)).to eq(0xfee1deadbeef) end rb_maj, rb_min = RUBY_VERSION.split('.') if rb_maj.to_i >= 1 && rb_min.to_i >= 9 || RUBY_PLATFORM =~ /java/ it "Struct#layout withs with a hash of :name => type" do class HashLayout < FFI::Struct layout :a => :int, :b => :long_long end ll_off = (FFI::TYPE_UINT64.alignment == 4 ? 4 : 8) expect(HashLayout.size).to eq(ll_off + 8) mp = FFI::MemoryPointer.new(HashLayout.size) s = HashLayout.new mp s[:a] = 0x12345678 expect(mp.get_int(0)).to eq(0x12345678) s[:b] = 0xfee1deadbeef expect(mp.get_int64(ll_off)).to eq(0xfee1deadbeef) end end it "subclass overrides initialize without calling super" do class InitializeWithoutSuper < FFI::Struct layout :a, :int, :b, :long_long, :d, [:double, 2] def initialize(a, b) self[:a] = a self[:b] = b self[:d][0] = 1.2 self[:d][1] = 3.4 end end s = InitializeWithoutSuper.new(0x1eefbeef, 0xdeadcafebabe) expect(s[:a]).to eq(0x1eefbeef) expect(s[:b]).to eq(0xdeadcafebabe) end it "Can use Struct subclass as parameter type" do expect(module StructParam extend FFI::Library ffi_lib TestLibrary::PATH class TestStruct < FFI::Struct layout :c, :char end attach_function :struct_field_s8, [ TestStruct.in ], :char end).to be_an_instance_of FFI::Function end it "Can use Struct subclass as IN parameter type" do expect(module StructParam2 extend FFI::Library ffi_lib TestLibrary::PATH class TestStruct < FFI::Struct layout :c, :char end attach_function :struct_field_s8, [ TestStruct.in ], :char end).to be_an_instance_of FFI::Function end it "Can use Struct subclass as OUT parameter type" do expect(module StructParam3 extend FFI::Library ffi_lib TestLibrary::PATH class TestStruct < FFI::Struct layout :c, :char end attach_function :struct_field_s8, [ TestStruct.out ], :char end).to be_an_instance_of FFI::Function end it "can be passed directly as a :pointer parameter" do class TestStruct < FFI::Struct layout :i, :int end s = TestStruct.new s[:i] = 0x12 expect(LibTest.ptr_ret_int32_t(s, 0)).to eq(0x12) end it ":char member aligned correctly" do class AlignChar < FFI::Struct layout :c, :char, :v, :char end s = AlignChar.new s[:v] = 0x12 expect(LibTest.struct_align_s8(s.pointer)).to eq(0x12) end it ":short member aligned correctly" do class AlignShort < FFI::Struct layout :c, :char, :v, :short end s = AlignShort.alloc_in s[:v] = 0x1234 expect(LibTest.struct_align_s16(s.pointer)).to eq(0x1234) end it ":int member aligned correctly" do class AlignInt < FFI::Struct layout :c, :char, :v, :int end s = AlignInt.alloc_in s[:v] = 0x12345678 expect(LibTest.struct_align_s32(s.pointer)).to eq(0x12345678) end it ":long_long member aligned correctly" do class AlignLongLong < FFI::Struct layout :c, :char, :v, :long_long end s = AlignLongLong.alloc_in s[:v] = 0x123456789abcdef0 expect(LibTest.struct_align_s64(s.pointer)).to eq(0x123456789abcdef0) end it ":long member aligned correctly" do class AlignLong < FFI::Struct layout :c, :char, :v, :long end s = AlignLong.alloc_in s[:v] = 0x12345678 expect(LibTest.struct_align_long(s.pointer)).to eq(0x12345678) end it ":float member aligned correctly" do class AlignFloat < FFI::Struct layout :c, :char, :v, :float end s = AlignFloat.alloc_in s[:v] = 1.23456 expect((LibTest.struct_align_f32(s.pointer) - 1.23456).abs).to be < 0.00001 end it ":double member aligned correctly" do class AlignDouble < FFI::Struct layout :c, :char, :v, :double end s = AlignDouble.alloc_in s[:v] = 1.23456789 expect((LibTest.struct_align_f64(s.pointer) - 1.23456789).abs).to be < 0.00000001 end it ":ulong, :pointer struct" do class ULPStruct < FFI::Struct layout :ul, :ulong, :p, :pointer end s = ULPStruct.alloc_in s[:ul] = 0xdeadbeef s[:p] = LibTest.ptr_from_address(0x12345678) expect(s.pointer.get_ulong(0)).to eq(0xdeadbeef) end def test_num_field(type, v) klass = Class.new(FFI::Struct) klass.layout :v, type, :dummy, :long s = klass.new s[:v] = v expect(s.pointer.send("get_#{type.to_s}", 0)).to eq(v) s.pointer.send("put_#{type.to_s}", 0, 0) expect(s[:v]).to eq(0) end def self.int_field_test(type, values) values.each do |v| it "#{type} field r/w (#{v.to_s(16)})" do test_num_field(type, v) end end end int_field_test(:char, [ 0, 127, -128, -1 ]) int_field_test(:uchar, [ 0, 0x7f, 0x80, 0xff ]) int_field_test(:short, [ 0, 0x7fff, -0x8000, -1 ]) int_field_test(:ushort, [ 0, 0x7fff, 0x8000, 0xffff ]) int_field_test(:int, [ 0, 0x7fffffff, -0x80000000, -1 ]) int_field_test(:uint, [ 0, 0x7fffffff, 0x80000000, 0xffffffff ]) int_field_test(:long_long, [ 0, 0x7fffffffffffffff, -0x8000000000000000, -1 ]) int_field_test(:ulong_long, [ 0, 0x7fffffffffffffff, 0x8000000000000000, 0xffffffffffffffff ]) if FFI::Platform::LONG_SIZE == 32 int_field_test(:long, [ 0, 0x7fffffff, -0x80000000, -1 ]) int_field_test(:ulong, [ 0, 0x7fffffff, 0x80000000, 0xffffffff ]) else int_field_test(:long, [ 0, 0x7fffffffffffffff, -0x8000000000000000, -1 ]) int_field_test(:ulong, [ 0, 0x7fffffffffffffff, 0x8000000000000000, 0xffffffffffffffff ]) end it ":float field r/w" do klass = Class.new(FFI::Struct) klass.layout :v, :float, :dummy, :long s = klass.new value = 1.23456 s[:v] = value expect((s.pointer.get_float(0) - value).abs).to be < 0.0001 end it ":double field r/w" do klass = Class.new(FFI::Struct) klass.layout :v, :double, :dummy, :long s = klass.new value = 1.23456 s[:v] = value expect((s.pointer.get_double(0) - value).abs).to be < 0.0001 end module EnumFields extend FFI::Library TestEnum = enum :test_enum, [:c1, 10, :c2, 20, :c3, 30, :c4, 40] class TestStruct < FFI::Struct layout :a, :int, :c, :test_enum, :d, [ TestEnum, TestEnum.symbols.length ] end end it ":enum field r/w" do s = EnumFields::TestStruct.new s[:c] = :c3 expect(s.pointer.get_uint(FFI::Type::INT32.size)).to eq(30) expect(s[:c]).to eq(:c3) end it "array of :enum field" do s = EnumFields::TestStruct.new EnumFields::TestEnum.symbols.each_with_index do |val, i| s[:d][i] = val end EnumFields::TestEnum.symbols.each_with_index do |val, i| expect(s.pointer.get_uint(FFI::Type::INT32.size * (2 + i))).to eq(EnumFields::TestEnum[val]) end s[:d].each_with_index do |val, i| expect(val).to eq(EnumFields::TestEnum.symbols[i]) end end module CallbackMember extend FFI::Library ffi_lib TestLibrary::PATH callback :add, [ :int, :int ], :int callback :sub, [ :int, :int ], :int class TestStruct < FFI::Struct layout :add, :add, :sub, :sub end attach_function :struct_call_add_cb, [TestStruct.in, :int, :int], :int attach_function :struct_call_sub_cb, [TestStruct.in, :int, :int], :int end it "Can have CallbackInfo struct field" do s = CallbackMember::TestStruct.new add_proc = lambda { |a, b| a+b } sub_proc = lambda { |a, b| a-b } s[:add] = add_proc s[:sub] = sub_proc expect(CallbackMember.struct_call_add_cb(s, 40, 2)).to eq(42) expect(CallbackMember.struct_call_sub_cb(s, 44, 2)).to eq(42) end it "Can return its members as a list" do class TestStruct < FFI::Struct layout :a, :int, :b, :int, :c, :int end expect(TestStruct.members).to include(:a, :b, :c) end it "Can return its instance members and values as lists" do class TestStruct < FFI::Struct layout :a, :int, :b, :int, :c, :int end s = TestStruct.new expect(s.members).to include(:a, :b, :c) s[:a] = 1 s[:b] = 2 s[:c] = 3 expect(s.values).to include(1, 2, 3) end it 'should return an ordered field/offset pairs array' do class TestStruct < FFI::Struct layout :a, :int, :b, :int, :c, :int end s = TestStruct.new expect(s.offsets).to eq([[:a, 0], [:b, 4], [:c, 8]]) expect(TestStruct.offsets).to eq([[:a, 0], [:b, 4], [:c, 8]]) end it "Struct#offset_of returns offset of field within struct" do class TestStruct < FFI::Struct layout :a, :int, :b, :int, :c, :int end expect(TestStruct.offset_of(:a)).to eq(0) expect(TestStruct.offset_of(:b)).to eq(4) expect(TestStruct.offset_of(:c)).to eq(8) end end describe FFI::Struct, ".layout" do module FFISpecs module LibTest extend FFI::Library ffi_lib TestLibrary::PATH begin attach_function :ptr_ret_int32_t, [ :pointer, :int ], :int rescue FFI::NotFoundError # NetBSD uses #define instead of typedef for these attach_function :ptr_ret_int32_t, :ptr_ret___int32_t, [ :pointer, :int ], :int end end end describe "when derived class is not assigned to any constant" do it "resolves a built-in type" do klass = Class.new FFI::Struct klass.layout :number, :int instance = klass.new instance[:number] = 0xA1 expect(FFISpecs::LibTest.ptr_ret_int32_t(instance, 0)).to eq(0xA1) end end describe "when derived class is assigned to a constant" do it "resolves a built-in type" do class FFISpecs::TestStruct < FFI::Struct layout :number, :int end instance = FFISpecs::TestStruct.new instance[:number] = 0xA1 expect(FFISpecs::LibTest.ptr_ret_int32_t(instance, 0)).to eq(0xA1) end it "resolves a type from the enclosing module" do module FFISpecs::LibTest typedef :uint, :custom_int class TestStruct < FFI::Struct layout :number, :custom_int end end instance = FFISpecs::LibTest::TestStruct.new instance[:number] = 0xA1 expect(FFISpecs::LibTest.ptr_ret_int32_t(instance, 0)).to eq(0xA1) end end end describe FFI::Struct, ' with a nested struct field' do module LibTest extend FFI::Library ffi_lib TestLibrary::PATH class NestedStruct < FFI::Struct layout :i, :int end class ContainerStruct < FFI::Struct layout :first, :char, :ns, NestedStruct end attach_function :struct_align_nested_struct, [ :pointer ], :int attach_function :struct_make_container_struct, [ :int ], :pointer end before do @cs = LibTest::ContainerStruct.new end it 'should align correctly nested struct field' do @cs[:ns][:i] = 123 expect(LibTest.struct_align_nested_struct(@cs.to_ptr)).to eq(123) end it 'should correctly calculate Container size (in bytes)' do expect(LibTest::ContainerStruct.size).to eq(8) end it 'should return a Struct object when the field is accessed' do expect(@cs[:ns].is_a?(FFI::Struct)).to be true end it 'should read a value from memory' do @cs = LibTest::ContainerStruct.new(LibTest.struct_make_container_struct(123)) expect(@cs[:ns][:i]).to eq(123) end it 'should write a value to memory' do @cs = LibTest::ContainerStruct.new(LibTest.struct_make_container_struct(123)) @cs[:ns][:i] = 456 expect(LibTest.struct_align_nested_struct(@cs.to_ptr)).to eq(456) end it 'should be able to assign struct instance to nested field' do cs = LibTest::ContainerStruct.new(LibTest.struct_make_container_struct(123)) ns = LibTest::NestedStruct.new ns[:i] = 567 cs[:ns] = ns expect(cs[:ns][:i]).to eq(567) expect(LibTest.struct_align_nested_struct(cs.to_ptr)).to eq(567) end end describe FFI::Struct, ' with a nested array of structs' do module InlineArrayOfStructs extend FFI::Library ffi_lib TestLibrary::PATH class NestedStruct < FFI::Struct layout :i, :int end class ContainerStruct < FFI::Struct layout :first, :char, :ns, [ NestedStruct, 1 ] end attach_function :struct_align_nested_struct, [ :pointer ], :int attach_function :struct_make_container_struct, [ :int ], :pointer end before do @cs = InlineArrayOfStructs::ContainerStruct.new end it 'should align correctly nested struct field' do @cs[:ns][0][:i] = 123 expect(InlineArrayOfStructs.struct_align_nested_struct(@cs.to_ptr)).to eq(123) end it 'should correctly calculate Container size (in bytes)' do expect(InlineArrayOfStructs::ContainerStruct.size).to eq(8) end it 'should return a Struct object when the field is accessed' do expect(@cs[:ns][0].is_a?(FFI::Struct)).to be true end it 'should read a value from memory' do @cs = InlineArrayOfStructs::ContainerStruct.new(InlineArrayOfStructs.struct_make_container_struct(123)) expect(@cs[:ns][0][:i]).to eq(123) end it 'should write a value to memory' do @cs = InlineArrayOfStructs::ContainerStruct.new(InlineArrayOfStructs.struct_make_container_struct(123)) @cs[:ns][0][:i] = 456 expect(InlineArrayOfStructs.struct_align_nested_struct(@cs.to_ptr)).to eq(456) end it 'should support Enumerable#each' do @cs = InlineArrayOfStructs::ContainerStruct.new(InlineArrayOfStructs.struct_make_container_struct(123)) ints = [] @cs[:ns].each { |s| ints << s[:i] } expect(ints[0]).to eq(123) end end describe FFI::Struct, ' by value' do module LibTest extend FFI::Library ffi_lib TestLibrary::PATH class S8S32 < FFI::Struct layout :s8, :char, :s32, :int end class StructString < FFI::Struct layout :bytes, :string, :len, :int end attach_function :struct_return_s8s32, [ ], S8S32.by_value attach_function :struct_s8s32_set, [ :char, :int ], S8S32.by_value attach_function :struct_s8s32_get_s8, [ S8S32.by_value ], :char attach_function :struct_s8s32_get_s32, [ S8S32.by_value ], :int attach_function :struct_s8s32_s32_ret_s32, [ S8S32.by_value, :int ], :int attach_function :struct_s8s32_s64_ret_s64, [ S8S32.by_value, :long_long ], :long_long attach_function :struct_s8s32_ret_s8s32, [ S8S32.by_value ], S8S32.by_value attach_function :struct_s32_ptr_s32_s8s32_ret_s32, [ :int, :pointer, :int, S8S32.by_value ], :int attach_function :struct_varargs_ret_struct_string, [ :int, :varargs ], StructString.by_value end it 'return using pre-set values' do s = LibTest.struct_return_s8s32 expect(s[:s8]).to eq(0x7f) expect(s[:s32]).to eq(0x12345678) end it 'return using passed in values' do s = LibTest.struct_s8s32_set(123, 456789) expect(s[:s8]).to eq(123) expect(s[:s32]).to eq(456789) end it 'parameter' do s = LibTest::S8S32.new s[:s8] = 0x12 s[:s32] = 0x34567890 expect(LibTest.struct_s8s32_get_s8(s)).to eq(0x12) expect(LibTest.struct_s8s32_get_s32(s)).to eq(0x34567890) end it 'parameter with following s32' do s = LibTest::S8S32.new s[:s8] = 0x12 s[:s32] = 0x34567890 expect(LibTest.struct_s8s32_s32_ret_s32(s, 0x1eefdead)).to eq(0x1eefdead) end # it 'parameter with following s64' do # s = LibTest::S8S64.new # s[:s8] = 0x12 # s[:s64] = 0x34567890 # # # LibTest.struct_s8s64_s64_ret_s64(s, 0x1eefdead1eefdead).should == 0x1eefdead1eefdead # end it 'parameter with preceding s32,ptr,s32' do s = LibTest::S8S32.new s[:s8] = 0x12 s[:s32] = 0x34567890 out = LibTest::S8S32.new expect(LibTest.struct_s32_ptr_s32_s8s32_ret_s32(0x1000000, out, 0x1eafbeef, s)).to eq(0x34567890) expect(out[:s8]).to eq(s[:s8]) expect(out[:s32]).to eq(s[:s32]) end it 'parameter with preceding s32,string,s32' do s = LibTest::S8S32.new s[:s8] = 0x12 s[:s32] = 0x34567890 out = 0.chr * 32 expect(LibTest.struct_s32_ptr_s32_s8s32_ret_s32(0x1000000, out, 0x1eafbeef, s)).to eq(0x34567890) end it 'parameter, returning struct by value' do s = LibTest::S8S32.new s[:s8] = 0x12 s[:s32] = 0x34567890 ret = LibTest.struct_s8s32_ret_s8s32(s) expect(ret[:s8]).to eq(s[:s8]) expect(ret[:s32]).to eq(s[:s32]) end it 'varargs returning a struct' do string = "test" s = LibTest.struct_varargs_ret_struct_string(4, :string, string) expect(s[:len]).to eq(string.length) expect(s[:bytes]).to eq(string) end end describe FFI::Struct, ' with an array field' do module LibTest extend FFI::Library ffi_lib TestLibrary::PATH class StructWithArray < FFI::Struct layout :first, :char, :a, [:int, 5] end attach_function :struct_make_struct_with_array, [:int, :int, :int, :int, :int], :pointer attach_function :struct_field_array, [:pointer], :pointer end before do @s = LibTest::StructWithArray.new end it 'should correctly calculate StructWithArray size (in bytes)' do expect(LibTest::StructWithArray.size).to eq(24) end it 'should read values from memory' do @s = LibTest::StructWithArray.new(LibTest.struct_make_struct_with_array(0, 1, 2, 3, 4)) expect(@s[:a].to_a).to eq([0, 1, 2, 3, 4]) end # it 'should cache array object for successive calls' do # @s[:a].object_id.should == @s[:a].object_id # end it 'should return the number of elements in the array field' do @s = LibTest::StructWithArray.new(LibTest.struct_make_struct_with_array(0, 1, 2, 3, 4)) expect(@s[:a].size).to eq(5) end it 'should allow iteration through the array elements' do @s = LibTest::StructWithArray.new(LibTest.struct_make_struct_with_array(0, 1, 2, 3, 4)) @s[:a].each_with_index { |elem, i| expect(elem).to eq(i) } end it 'should return the pointer to the array' do @s = LibTest::StructWithArray.new(LibTest.struct_make_struct_with_array(0, 1, 2, 3, 4)) expect(@s[:a].to_ptr).to eq(LibTest::struct_field_array(@s.to_ptr)) end end describe 'BuggedStruct' do module LibTest extend FFI::Library ffi_lib TestLibrary::PATH class BuggedStruct < FFI::Struct layout :visible, :uchar, :x, :uint, :y, :uint, :rx, :short, :ry, :short, :order, :uchar, :size, :uchar end attach_function :bugged_struct_size, [], :uint end it 'should return its correct size' do expect(LibTest::BuggedStruct.size).to eq(LibTest.bugged_struct_size) end it "offsets within struct should be correct" do expect(LibTest::BuggedStruct.offset_of(:visible)).to eq(0) expect(LibTest::BuggedStruct.offset_of(:x)).to eq(4) expect(LibTest::BuggedStruct.offset_of(:y)).to eq(8) expect(LibTest::BuggedStruct.offset_of(:rx)).to eq(12) expect(LibTest::BuggedStruct.offset_of(:ry)).to eq(14) expect(LibTest::BuggedStruct.offset_of(:order)).to eq(16) expect(LibTest::BuggedStruct.offset_of(:size)).to eq(17) end it 'should return correct field/offset pairs' do expect(LibTest::BuggedStruct.offsets.sort do |a, b| a[1] <=> b[1] end).to eq([[:visible, 0], [:x, 4], [:y, 8], [:rx, 12], [:ry, 14], [:order, 16], [:size, 17]]) end end describe "Struct allocation" do it "MemoryPointer.new(Struct, 2)" do class S < FFI::Struct layout :i, :uint end p = FFI::MemoryPointer.new(S, 2) expect(p.total).to eq(8) expect(p.type_size).to eq(4) p.put_uint(4, 0xdeadbeef) expect(S.new(p[1])[:i]).to eq(0xdeadbeef) expect(p[1].address).to eq((p[0].address + 4)) end it "Buffer.new(Struct, 2)" do class S < FFI::Struct layout :i, :uint end p = FFI::Buffer.new(S, 2) expect(p.total).to eq(8) expect(p.type_size).to eq(4) p.put_uint(4, 0xdeadbeef) expect(S.new(p[1])[:i]).to eq(0xdeadbeef) end it "null? should be true when initialized with NULL pointer" do class S < FFI::Struct layout :i, :uint end expect(S.new(FFI::Pointer::NULL)).to be_null end it "null? should be false when initialized with non-NULL pointer" do class S < FFI::Struct layout :i, :uint end expect(S.new(FFI::MemoryPointer.new(S))).not_to be_null end it "supports :bool as a struct member" do expect do c = Class.new(FFI::Struct) do layout :b, :bool end struct = c.new struct[:b] = ! struct[:b] end.not_to raise_error Exception end end describe "variable-length arrays" do it "zero length array should be accepted as last field" do expect { Class.new(FFI::Struct) do layout :count, :int, :data, [ :char, 0 ] end }.not_to raise_error Exception end it "zero length array before last element should raise error" do expect { Class.new(FFI::Struct) do layout :data, [ :char, 0 ], :count, :int end }.to raise_error end it "can access elements of array" do struct_class = Class.new(FFI::Struct) do layout :count, :int, :data, [ :long, 0 ] end s = struct_class.new(FFI::MemoryPointer.new(1024)) s[:data][0] = 0x1eadbeef s[:data][1] = 0x12345678 expect(s[:data][0]).to eq(0x1eadbeef) expect(s[:data][1]).to eq(0x12345678) end it "non-variable length array is bounds checked" do struct_class = Class.new(FFI::Struct) do layout :count, :int, :data, [ :long, 1 ] end s = struct_class.new(FFI::MemoryPointer.new(1024)) s[:data][0] = 0x1eadbeef expect { s[:data][1] = 0x12345678 }.to raise_error expect(s[:data][0]).to eq(0x1eadbeef) expect { expect(s[:data][1]).to == 0x12345678 }.to raise_error end end