Modify the alltypes test to check re-encoding through protoc.

This way we can verify that the message is encoded exactly the same way
as the official protobuf implementation would do it.

tests/alltypes/SConscript

@@ -7,6 +7,29 @@ env.NanopbProto(["alltypes", "alltypes.options"])
 enc = env.Program(["encode_alltypes.c", "alltypes.pb.c", "$COMMON/pb_encode.o"])
 dec = env.Program(["decode_alltypes.c", "alltypes.pb.c", "$COMMON/pb_decode.o"])
 
+# Test the round-trip from nanopb encoder to nanopb decoder
 env.RunTest(enc)
 env.RunTest([dec, "encode_alltypes.output"])
 
+# Re-encode the data using protoc, and check that the results from nanopb
+# match byte-per-byte to the protoc output.
+env.Decode("encode_alltypes.output.decoded",
+           ["encode_alltypes.output", "alltypes.proto"],
+           MESSAGE='AllTypes')
+env.Encode("encode_alltypes.output.recoded",
+           ["encode_alltypes.output.decoded", "alltypes.proto"],
+           MESSAGE='AllTypes')
+env.Compare(["encode_alltypes.output", "encode_alltypes.output.recoded"])
+
+# Do the same checks with the optional fields present.
+env.RunTest("optionals.output", enc, ARGS = ['1'])
+env.RunTest("optionals.decout", [dec, "optionals.output"], ARGS = ['1'])
+env.Decode("optionals.output.decoded",
+           ["optionals.output", "alltypes.proto"],
+           MESSAGE='AllTypes')
+env.Encode("optionals.output.recoded",
+           ["optionals.output.decoded", "alltypes.proto"],
+           MESSAGE='AllTypes')
+env.Compare(["optionals.output", "optionals.output.recoded"])
+
+

tests/alltypes/alltypes.proto

@@ -39,26 +39,26 @@ message AllTypes {
     required EmptyMessage req_emptymsg = 18;
     
     
-    repeated int32      rep_int32   = 21;
-    repeated int64      rep_int64   = 22;
-    repeated uint32     rep_uint32  = 23;
-    repeated uint64     rep_uint64  = 24;
-    repeated sint32     rep_sint32  = 25;
-    repeated sint64     rep_sint64  = 26;
-    repeated bool       rep_bool    = 27;
+    repeated int32      rep_int32   = 21 [packed = true];
+    repeated int64      rep_int64   = 22 [packed = true];
+    repeated uint32     rep_uint32  = 23 [packed = true];
+    repeated uint64     rep_uint64  = 24 [packed = true];
+    repeated sint32     rep_sint32  = 25 [packed = true];
+    repeated sint64     rep_sint64  = 26 [packed = true];
+    repeated bool       rep_bool    = 27 [packed = true];
     
-    repeated fixed32    rep_fixed32 = 28;
-    repeated sfixed32   rep_sfixed32= 29;
-    repeated float      rep_float   = 30;
+    repeated fixed32    rep_fixed32 = 28 [packed = true];
+    repeated sfixed32   rep_sfixed32= 29 [packed = true];
+    repeated float      rep_float   = 30 [packed = true];
     
-    repeated fixed64    rep_fixed64 = 31;
-    repeated sfixed64   rep_sfixed64= 32;
-    repeated double     rep_double  = 33;
+    repeated fixed64    rep_fixed64 = 31 [packed = true];
+    repeated sfixed64   rep_sfixed64= 32 [packed = true];
+    repeated double     rep_double  = 33 [packed = true];
     
     repeated string     rep_string  = 34;
     repeated bytes      rep_bytes   = 35;
     repeated SubMessage rep_submsg  = 36;
-    repeated MyEnum     rep_enum    = 37;
+    repeated MyEnum     rep_enum    = 37 [packed = true];
     repeated EmptyMessage rep_emptymsg = 38;
     
     optional int32      opt_int32   = 41 [default = 4041];