protobuf-c/t/generated-code2/cxx-generate-packed-data.cc

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/* generate byte arrays that match the constructs in test-generated-code2.c.
* these are tested against eachother to make sure the c and c++ agree. */
#define __STDC_LIMIT_MACROS
#include "t/test-full.pb.h"
#include <limits.h>
# if defined(_MSC_VER)
/* On windows, in ms visual studio, define the types ourselves */
# define int32_t signed __int32
# define INT32_MIN _I32_MIN
# define INT32_MAX _I32_MAX
# define uint32_t unsigned __int32
# define UINT32_MIN _UI32_MIN
# define UINT32_MAX _UI32_MAX
# define int64_t signed __int64
# define INT64_MIN _I64_MIN
# define INT64_MAX _I64_MAX
# define uint64_t unsigned __int64
# define UINT64_MIN _UI64_MIN
# define UINT64_MAX _UI64_MAX
# define uint8_t unsigned char
# else
/* Use the system inttypes.h */
# include <inttypes.h>
# endif
#include <stdio.h>
using namespace foo;
#define protobuf_c_boolean bool
#define TEST_ENUM_SMALL_TYPE_NAME TestEnumSmall
#define TEST_ENUM_SMALL(NAME) foo::NAME
#define TEST_ENUM_TYPE_NAME TestEnum
#define TEST_ENUM(NAME) foo::NAME
#include "common-test-arrays.h"
#define N_ELEMENTS(arr) (sizeof(arr)/sizeof((arr)[0]))
static void
dump_message_bytes(google::protobuf::Message *message,
const char *label)
{
std::string rv;
unsigned char *bytes;
unsigned len;
if (!message->SerializeToString(&rv))
assert(0);
bytes = (unsigned char *) rv.data();
len = rv.size();
printf ("static const uint8_t %s[%u] = { ", label, len);
for (unsigned i = 0; i < len; i++) {
if (i)
printf (", ");
printf ("0x%02x", bytes[i]);
}
printf (" };\n");
}
static void
dump_test_enum_small (void)
{
TestMessRequiredEnumSmall es;
es.set_test(VALUE);
dump_message_bytes(&es, "test_enum_small_VALUE");
es.set_test(OTHER_VALUE);
dump_message_bytes(&es, "test_enum_small_OTHER_VALUE");
}
static void
dump_test_enum_big (void)
{
TestMessRequiredEnum eb;
eb.set_test(VALUE0); dump_message_bytes(&eb, "test_enum_big_VALUE0");
eb.set_test(VALUE127); dump_message_bytes(&eb, "test_enum_big_VALUE127");
eb.set_test(VALUE128); dump_message_bytes(&eb, "test_enum_big_VALUE128");
eb.set_test(VALUE16383); dump_message_bytes(&eb, "test_enum_big_VALUE16383");
eb.set_test(VALUE16384); dump_message_bytes(&eb, "test_enum_big_VALUE16384");
eb.set_test(VALUE2097151); dump_message_bytes(&eb, "test_enum_big_VALUE2097151");
eb.set_test(VALUE2097152); dump_message_bytes(&eb, "test_enum_big_VALUE2097152");
eb.set_test(VALUE268435455); dump_message_bytes(&eb, "test_enum_big_VALUE268435455");
eb.set_test(VALUE268435456); dump_message_bytes(&eb, "test_enum_big_VALUE268435456");
}
static void
dump_test_field_numbers (void)
{
#define DUMP_ONE(num) \
{ TestFieldNo##num f; \
f.set_test("tst"); \
dump_message_bytes(&f, "test_field_number_" #num); }
DUMP_ONE (15)
DUMP_ONE (16)
DUMP_ONE (2047)
DUMP_ONE (2048)
DUMP_ONE (262143)
DUMP_ONE (262144)
DUMP_ONE (33554431)
DUMP_ONE (33554432)
#undef DUMP_ONE
}
static void dump_test_required_int32 (void)
{
TestMessRequiredInt32 mess;
mess.set_test (INT32_MIN);
dump_message_bytes (&mess, "test_required_int32_min");
mess.set_test (-1000);
dump_message_bytes (&mess, "test_required_int32_m1000");
mess.set_test (0);
dump_message_bytes (&mess, "test_required_int32_0");
mess.set_test (INT32_MAX);
dump_message_bytes (&mess, "test_required_int32_max");
}
static void dump_test_required_sint32 (void)
{
TestMessRequiredSInt32 mess;
mess.set_test (INT32_MIN);
dump_message_bytes (&mess, "test_required_sint32_min");
mess.set_test (-1000);
dump_message_bytes (&mess, "test_required_sint32_m1000");
mess.set_test (0);
dump_message_bytes (&mess, "test_required_sint32_0");
mess.set_test (INT32_MAX);
dump_message_bytes (&mess, "test_required_sint32_max");
}
static void dump_test_required_sfixed32 (void)
{
TestMessRequiredSFixed32 mess;
mess.set_test (INT32_MIN);
dump_message_bytes (&mess, "test_required_sfixed32_min");
mess.set_test (-1000);
dump_message_bytes (&mess, "test_required_sfixed32_m1000");
mess.set_test (0);
dump_message_bytes (&mess, "test_required_sfixed32_0");
mess.set_test (INT32_MAX);
dump_message_bytes (&mess, "test_required_sfixed32_max");
}
static void dump_test_required_uint32 (void)
{
TestMessRequiredUInt32 mess;
mess.set_test (0);
dump_message_bytes (&mess, "test_required_uint32_0");
mess.set_test (MILLION);
dump_message_bytes (&mess, "test_required_uint32_million");
mess.set_test (UINT32_MAX);
dump_message_bytes (&mess, "test_required_uint32_max");
}
static void dump_test_required_fixed32 (void)
{
TestMessRequiredFixed32 mess;
mess.set_test (0);
dump_message_bytes (&mess, "test_required_fixed32_0");
mess.set_test (MILLION);
dump_message_bytes (&mess, "test_required_fixed32_million");
mess.set_test (UINT32_MAX);
dump_message_bytes (&mess, "test_required_fixed32_max");
}
static void dump_test_required_int64 (void)
{
TestMessRequiredInt64 mess;
mess.set_test (INT64_MIN);
dump_message_bytes (&mess, "test_required_int64_min");
mess.set_test (-TRILLION);
dump_message_bytes (&mess, "test_required_int64_mtril");
mess.set_test (0);
dump_message_bytes (&mess, "test_required_int64_0");
mess.set_test (QUADRILLION);
dump_message_bytes (&mess, "test_required_int64_quad");
mess.set_test (INT64_MAX);
dump_message_bytes (&mess, "test_required_int64_max");
}
static void dump_test_required_sint64 (void)
{
TestMessRequiredSInt64 mess;
mess.set_test (INT64_MIN);
dump_message_bytes (&mess, "test_required_sint64_min");
mess.set_test (-TRILLION);
dump_message_bytes (&mess, "test_required_sint64_mtril");
mess.set_test (0);
dump_message_bytes (&mess, "test_required_sint64_0");
mess.set_test (QUADRILLION);
dump_message_bytes (&mess, "test_required_sint64_quad");
mess.set_test (INT64_MAX);
dump_message_bytes (&mess, "test_required_sint64_max");
}
static void dump_test_required_sfixed64 (void)
{
TestMessRequiredSFixed64 mess;
mess.set_test (INT64_MIN);
dump_message_bytes (&mess, "test_required_sfixed64_min");
mess.set_test (-TRILLION);
dump_message_bytes (&mess, "test_required_sfixed64_mtril");
mess.set_test (0);
dump_message_bytes (&mess, "test_required_sfixed64_0");
mess.set_test (QUADRILLION);
dump_message_bytes (&mess, "test_required_sfixed64_quad");
mess.set_test (INT64_MAX);
dump_message_bytes (&mess, "test_required_sfixed64_max");
}
static void dump_test_required_uint64 (void)
{
TestMessRequiredUInt64 mess;
mess.set_test (0);
dump_message_bytes (&mess, "test_required_uint64_0");
mess.set_test (THOUSAND);
dump_message_bytes (&mess, "test_required_uint64_thou");
mess.set_test (MILLION);
dump_message_bytes (&mess, "test_required_uint64_mill");
mess.set_test (BILLION);
dump_message_bytes (&mess, "test_required_uint64_bill");
mess.set_test (TRILLION);
dump_message_bytes (&mess, "test_required_uint64_tril");
mess.set_test (QUADRILLION);
dump_message_bytes (&mess, "test_required_uint64_quad");
mess.set_test (QUINTILLION);
dump_message_bytes (&mess, "test_required_uint64_quint");
mess.set_test (UINT64_MAX);
dump_message_bytes (&mess, "test_required_uint64_max");
}
static void dump_test_required_fixed64 (void)
{
TestMessRequiredFixed64 mess;
mess.set_test (0);
dump_message_bytes (&mess, "test_required_fixed64_0");
mess.set_test (THOUSAND);
dump_message_bytes (&mess, "test_required_fixed64_thou");
mess.set_test (MILLION);
dump_message_bytes (&mess, "test_required_fixed64_mill");
mess.set_test (BILLION);
dump_message_bytes (&mess, "test_required_fixed64_bill");
mess.set_test (TRILLION);
dump_message_bytes (&mess, "test_required_fixed64_tril");
mess.set_test (QUADRILLION);
dump_message_bytes (&mess, "test_required_fixed64_quad");
mess.set_test (QUINTILLION);
dump_message_bytes (&mess, "test_required_fixed64_quint");
mess.set_test (UINT64_MAX);
dump_message_bytes (&mess, "test_required_fixed64_max");
}
static void dump_test_required_float (void)
{
TestMessRequiredFloat mess;
mess.set_test(-THOUSAND);
dump_message_bytes (&mess, "test_required_float_mthou");
mess.set_test(0);
dump_message_bytes (&mess, "test_required_float_0");
mess.set_test(420);
dump_message_bytes (&mess, "test_required_float_420");
}
static void dump_test_required_double (void)
{
TestMessRequiredDouble mess;
mess.set_test(-THOUSAND);
dump_message_bytes (&mess, "test_required_double_mthou");
mess.set_test(0);
dump_message_bytes (&mess, "test_required_double_0");
mess.set_test(420);
dump_message_bytes (&mess, "test_required_double_420");
}
static void dump_test_required_bool (void)
{
TestMessRequiredBool mess;
mess.set_test(false);
dump_message_bytes (&mess, "test_required_bool_0");
mess.set_test(true);
dump_message_bytes (&mess, "test_required_bool_1");
}
static void dump_test_required_enum_small (void)
{
TestMessRequiredEnumSmall mess;
mess.set_test(VALUE);
dump_message_bytes (&mess, "test_required_enum_small_VALUE");
mess.set_test(OTHER_VALUE);
dump_message_bytes (&mess, "test_required_enum_small_OTHER_VALUE");
}
static void dump_test_required_enum (void)
{
TestMessRequiredEnum mess;
mess.set_test (VALUE0);
dump_message_bytes (&mess, "test_required_enum_0");
mess.set_test (VALUE1);
dump_message_bytes (&mess, "test_required_enum_1");
mess.set_test (VALUE127);
dump_message_bytes (&mess, "test_required_enum_127");
mess.set_test (VALUE128);
dump_message_bytes (&mess, "test_required_enum_128");
mess.set_test (VALUE16383);
dump_message_bytes (&mess, "test_required_enum_16383");
mess.set_test (VALUE16384);
dump_message_bytes (&mess, "test_required_enum_16384");
mess.set_test (VALUE2097151);
dump_message_bytes (&mess, "test_required_enum_2097151");
mess.set_test (VALUE2097152);
dump_message_bytes (&mess, "test_required_enum_2097152");
mess.set_test (VALUE268435455);
dump_message_bytes (&mess, "test_required_enum_268435455");
mess.set_test (VALUE268435456);
dump_message_bytes (&mess, "test_required_enum_268435456");
}
static void dump_test_required_string (void)
{
TestMessRequiredString mess;
mess.set_test ("");
dump_message_bytes(&mess, "test_required_string_empty");
mess.set_test ("hello");
dump_message_bytes(&mess, "test_required_string_hello");
mess.set_test ("two hundred xs follow: xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx");
dump_message_bytes(&mess, "test_required_string_long");
}
static void dump_test_required_bytes (void)
{
TestMessRequiredBytes mess;
mess.set_test ("");
dump_message_bytes (&mess, "test_required_bytes_empty");
mess.set_test ("hello");
dump_message_bytes (&mess, "test_required_bytes_hello");
mess.set_test (std::string("\1") + '\0' + "\375\2\4");
dump_message_bytes (&mess, "test_required_bytes_random");
}
static void dump_test_required_message (void)
{
TestMessRequiredMessage mess;
mess.mutable_test()->set_test(0);
dump_message_bytes (&mess, "test_required_submess_0");
mess.mutable_test()->set_test(42);
dump_message_bytes (&mess, "test_required_submess_42");
}
static void dump_test_optional_int32 (void)
{
TestMessOptional opt;
opt.set_test_int32 (INT32_MIN);
dump_message_bytes (&opt, "test_optional_int32_min");
opt.set_test_int32 (-1);
dump_message_bytes (&opt, "test_optional_int32_m1");
opt.set_test_int32 (0);
dump_message_bytes (&opt, "test_optional_int32_0");
opt.set_test_int32 (666);
dump_message_bytes (&opt, "test_optional_int32_666");
opt.set_test_int32 (INT32_MAX);
dump_message_bytes (&opt, "test_optional_int32_max");
}
static void dump_test_optional_sint32 (void)
{
TestMessOptional opt;
opt.set_test_sint32 (INT32_MIN);
dump_message_bytes (&opt, "test_optional_sint32_min");
opt.set_test_sint32 (-1);
dump_message_bytes (&opt, "test_optional_sint32_m1");
opt.set_test_sint32 (0);
dump_message_bytes (&opt, "test_optional_sint32_0");
opt.set_test_sint32 (666);
dump_message_bytes (&opt, "test_optional_sint32_666");
opt.set_test_sint32 (INT32_MAX);
dump_message_bytes (&opt, "test_optional_sint32_max");
}
static void dump_test_optional_sfixed32 (void)
{
TestMessOptional opt;
opt.set_test_sfixed32 (INT32_MIN);
dump_message_bytes (&opt, "test_optional_sfixed32_min");
opt.set_test_sfixed32 (-1);
dump_message_bytes (&opt, "test_optional_sfixed32_m1");
opt.set_test_sfixed32 (0);
dump_message_bytes (&opt, "test_optional_sfixed32_0");
opt.set_test_sfixed32 (666);
dump_message_bytes (&opt, "test_optional_sfixed32_666");
opt.set_test_sfixed32 (INT32_MAX);
dump_message_bytes (&opt, "test_optional_sfixed32_max");
}
static void dump_test_optional_int64 (void)
{
TestMessOptional opt;
opt.set_test_int64 (INT64_MIN);
dump_message_bytes (&opt, "test_optional_int64_min");
opt.set_test_int64 (-1111111111LL);
dump_message_bytes (&opt, "test_optional_int64_m1111111111LL");
opt.set_test_int64 (0);
dump_message_bytes (&opt, "test_optional_int64_0");
opt.set_test_int64 (QUINTILLION);
dump_message_bytes (&opt, "test_optional_int64_quintillion");
opt.set_test_int64 (INT64_MAX);
dump_message_bytes (&opt, "test_optional_int64_max");
}
static void dump_test_optional_sint64 (void)
{
TestMessOptional opt;
opt.set_test_sint64 (INT64_MIN);
dump_message_bytes (&opt, "test_optional_sint64_min");
opt.set_test_sint64 (-1111111111LL);
dump_message_bytes (&opt, "test_optional_sint64_m1111111111LL");
opt.set_test_sint64 (0);
dump_message_bytes (&opt, "test_optional_sint64_0");
opt.set_test_sint64 (QUINTILLION);
dump_message_bytes (&opt, "test_optional_sint64_quintillion");
opt.set_test_sint64 (INT64_MAX);
dump_message_bytes (&opt, "test_optional_sint64_max");
}
static void dump_test_optional_sfixed64 (void)
{
TestMessOptional opt;
opt.set_test_sfixed64 (INT64_MIN);
dump_message_bytes (&opt, "test_optional_sfixed64_min");
opt.set_test_sfixed64 (-1111111111LL);
dump_message_bytes (&opt, "test_optional_sfixed64_m1111111111LL");
opt.set_test_sfixed64 (0);
dump_message_bytes (&opt, "test_optional_sfixed64_0");
opt.set_test_sfixed64 (QUINTILLION);
dump_message_bytes (&opt, "test_optional_sfixed64_quintillion");
opt.set_test_sfixed64 (INT64_MAX);
dump_message_bytes (&opt, "test_optional_sfixed64_max");
}
static void dump_test_optional_uint32 (void)
{
TestMessOptional opt;
opt.set_test_uint32(0);
dump_message_bytes (&opt, "test_optional_uint32_0");
opt.set_test_uint32(669);
dump_message_bytes (&opt, "test_optional_uint32_669");
opt.set_test_uint32(UINT32_MAX);
dump_message_bytes (&opt, "test_optional_uint32_max");
}
static void dump_test_optional_fixed32 (void)
{
TestMessOptional opt;
opt.set_test_fixed32(0);
dump_message_bytes (&opt, "test_optional_fixed32_0");
opt.set_test_fixed32(669);
dump_message_bytes (&opt, "test_optional_fixed32_669");
opt.set_test_fixed32(UINT32_MAX);
dump_message_bytes (&opt, "test_optional_fixed32_max");
}
static void dump_test_optional_uint64 (void)
{
TestMessOptional opt;
opt.set_test_uint64(0);
dump_message_bytes (&opt, "test_optional_uint64_0");
opt.set_test_uint64(669669669669669ULL);
dump_message_bytes (&opt, "test_optional_uint64_669669669669669");
opt.set_test_uint64(UINT64_MAX);
dump_message_bytes (&opt, "test_optional_uint64_max");
}
static void dump_test_optional_fixed64 (void)
{
TestMessOptional opt;
opt.set_test_fixed64(0);
dump_message_bytes (&opt, "test_optional_fixed64_0");
opt.set_test_fixed64(669669669669669ULL);
dump_message_bytes (&opt, "test_optional_fixed64_669669669669669");
opt.set_test_fixed64(UINT64_MAX);
dump_message_bytes (&opt, "test_optional_fixed64_max");
}
static void dump_test_optional_float (void)
{
TestMessOptional opt;
opt.set_test_float (-100);
dump_message_bytes (&opt, "test_optional_float_m100");
opt.set_test_float (0);
dump_message_bytes (&opt, "test_optional_float_0");
opt.set_test_float (141243);
dump_message_bytes (&opt, "test_optional_float_141243");
}
static void dump_test_optional_double (void)
{
TestMessOptional opt;
opt.set_test_double (-100);
dump_message_bytes (&opt, "test_optional_double_m100");
opt.set_test_double (0);
dump_message_bytes (&opt, "test_optional_double_0");
opt.set_test_double (141243);
dump_message_bytes (&opt, "test_optional_double_141243");
}
static void dump_test_optional_bool (void)
{
TestMessOptional opt;
opt.set_test_boolean (false);
dump_message_bytes (&opt, "test_optional_bool_0");
opt.set_test_boolean (true);
dump_message_bytes (&opt, "test_optional_bool_1");
}
static void dump_test_optional_enum_small (void)
{
TestMessOptional opt;
opt.set_test_enum_small (VALUE);
dump_message_bytes (&opt, "test_optional_enum_small_0");
opt.set_test_enum_small (OTHER_VALUE);
dump_message_bytes (&opt, "test_optional_enum_small_1");
}
static void dump_test_optional_enum (void)
{
TestMessOptional opt;
//for a in 0 1 127 128 16383 16384 2097151 2097152 268435455 268435456 ; do
//echo ' opt.set_test_enum (VALUE'$a');
//dump_message_bytes (&opt, "test_optional_enum_'$a'");'
//done
opt.set_test_enum (VALUE0);
dump_message_bytes (&opt, "test_optional_enum_0");
opt.set_test_enum (VALUE1);
dump_message_bytes (&opt, "test_optional_enum_1");
opt.set_test_enum (VALUE127);
dump_message_bytes (&opt, "test_optional_enum_127");
opt.set_test_enum (VALUE128);
dump_message_bytes (&opt, "test_optional_enum_128");
opt.set_test_enum (VALUE16383);
dump_message_bytes (&opt, "test_optional_enum_16383");
opt.set_test_enum (VALUE16384);
dump_message_bytes (&opt, "test_optional_enum_16384");
opt.set_test_enum (VALUE2097151);
dump_message_bytes (&opt, "test_optional_enum_2097151");
opt.set_test_enum (VALUE2097152);
dump_message_bytes (&opt, "test_optional_enum_2097152");
opt.set_test_enum (VALUE268435455);
dump_message_bytes (&opt, "test_optional_enum_268435455");
opt.set_test_enum (VALUE268435456);
dump_message_bytes (&opt, "test_optional_enum_268435456");
}
static void dump_test_optional_string (void)
{
TestMessOptional opt;
opt.set_test_string ("");
dump_message_bytes (&opt, "test_optional_string_empty");
opt.set_test_string ("hello");
dump_message_bytes (&opt, "test_optional_string_hello");
}
static void dump_test_optional_bytes (void)
{
TestMessOptional opt;
opt.set_test_bytes ("");
dump_message_bytes (&opt, "test_optional_bytes_empty");
opt.set_test_bytes ("hello");
dump_message_bytes (&opt, "test_optional_bytes_hello");
opt.set_test_bytes (std::string("\1") + '\0' + "\375\2\4");
dump_message_bytes (&opt, "test_optional_bytes_random");
}
static void dump_test_optional_message (void)
{
TestMessOptional opt;
opt.mutable_test_message()->set_test(0);
dump_message_bytes (&opt, "test_optional_submess_0");
opt.mutable_test_message()->set_test(42);
dump_message_bytes (&opt, "test_optional_submess_42");
}
#define DUMP_STATIC_ARRAY_GENERIC(member, static_array, output_array_name) \
do{ \
TestMess mess; \
for (unsigned i = 0; i < N_ELEMENTS (static_array); i++) \
mess.add_##member(static_array[i]); \
dump_message_bytes(&mess, output_array_name); \
}while(0)
static void dump_test_repeated_int32 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_int32, static_array, output_array_name)
DUMP_STATIC_ARRAY (int32_arr0, "test_repeated_int32_arr0");
DUMP_STATIC_ARRAY (int32_arr1, "test_repeated_int32_arr1");
DUMP_STATIC_ARRAY (int32_arr_min_max, "test_repeated_int32_arr_min_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_sint32 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_sint32, static_array, output_array_name)
DUMP_STATIC_ARRAY (int32_arr0, "test_repeated_sint32_arr0");
DUMP_STATIC_ARRAY (int32_arr1, "test_repeated_sint32_arr1");
DUMP_STATIC_ARRAY (int32_arr_min_max, "test_repeated_sint32_arr_min_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_uint32 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_uint32, static_array, output_array_name)
DUMP_STATIC_ARRAY (uint32_roundnumbers, "test_repeated_uint32_roundnumbers");
DUMP_STATIC_ARRAY (uint32_0_max, "test_repeated_uint32_0_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_sfixed32 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_sfixed32, static_array, output_array_name)
DUMP_STATIC_ARRAY (int32_arr0, "test_repeated_sfixed32_arr0");
DUMP_STATIC_ARRAY (int32_arr1, "test_repeated_sfixed32_arr1");
DUMP_STATIC_ARRAY (int32_arr_min_max, "test_repeated_sfixed32_arr_min_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_fixed32 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_fixed32, static_array, output_array_name)
DUMP_STATIC_ARRAY (uint32_roundnumbers, "test_repeated_fixed32_roundnumbers");
DUMP_STATIC_ARRAY (uint32_0_max, "test_repeated_fixed32_0_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_int64 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_int64, static_array, output_array_name)
DUMP_STATIC_ARRAY (int64_roundnumbers, "test_repeated_int64_roundnumbers");
DUMP_STATIC_ARRAY (int64_min_max, "test_repeated_int64_min_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_sint64 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_sint64, static_array, output_array_name)
DUMP_STATIC_ARRAY (int64_roundnumbers, "test_repeated_sint64_roundnumbers");
DUMP_STATIC_ARRAY (int64_min_max, "test_repeated_sint64_min_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_sfixed64 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_sfixed64, static_array, output_array_name)
DUMP_STATIC_ARRAY (int64_roundnumbers, "test_repeated_sfixed64_roundnumbers");
DUMP_STATIC_ARRAY (int64_min_max, "test_repeated_sfixed64_min_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_uint64 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC (test_uint64, static_array, output_array_name)
DUMP_STATIC_ARRAY(uint64_roundnumbers, "test_repeated_uint64_roundnumbers");
DUMP_STATIC_ARRAY(uint64_0_1_max, "test_repeated_uint64_0_1_max");
DUMP_STATIC_ARRAY(uint64_random, "test_repeated_uint64_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_fixed64 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_fixed64, static_array, output_array_name)
DUMP_STATIC_ARRAY(uint64_roundnumbers, "test_repeated_fixed64_roundnumbers");
DUMP_STATIC_ARRAY(uint64_0_1_max, "test_repeated_fixed64_0_1_max");
DUMP_STATIC_ARRAY(uint64_random, "test_repeated_fixed64_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_float (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_float, static_array, output_array_name)
DUMP_STATIC_ARRAY(float_random, "test_repeated_float_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_double (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_double, static_array, output_array_name)
DUMP_STATIC_ARRAY(double_random, "test_repeated_double_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_boolean (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_boolean, static_array, output_array_name)
DUMP_STATIC_ARRAY(boolean_0, "test_repeated_boolean_0");
DUMP_STATIC_ARRAY(boolean_1, "test_repeated_boolean_1");
DUMP_STATIC_ARRAY(boolean_random, "test_repeated_boolean_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_enum_small (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC (test_enum_small, static_array, output_array_name)
DUMP_STATIC_ARRAY (enum_small_0, "test_repeated_enum_small_0");
DUMP_STATIC_ARRAY (enum_small_1, "test_repeated_enum_small_1");
DUMP_STATIC_ARRAY (enum_small_random, "test_repeated_enum_small_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_enum (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC (test_enum, static_array, output_array_name)
DUMP_STATIC_ARRAY (enum_0, "test_repeated_enum_0");
DUMP_STATIC_ARRAY (enum_1, "test_repeated_enum_1");
DUMP_STATIC_ARRAY (enum_random, "test_repeated_enum_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_string (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC (test_string, static_array, output_array_name)
DUMP_STATIC_ARRAY (repeated_strings_0, "test_repeated_strings_0");
DUMP_STATIC_ARRAY (repeated_strings_1, "test_repeated_strings_1");
DUMP_STATIC_ARRAY (repeated_strings_2, "test_repeated_strings_2");
DUMP_STATIC_ARRAY (repeated_strings_3, "test_repeated_strings_3");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_repeated_bytes (void)
{
TestMess mess;
mess.add_test_bytes(std::string("text"));
mess.add_test_bytes(std::string("str\1\2\3\4\5") + '\0');
mess.add_test_bytes(std::string("gobble") + '\0' + "foo");
dump_message_bytes(&mess, "test_repeated_bytes_0");
}
static void dump_test_repeated_SubMess (void)
{
TestMess mess;
mess.add_test_message()->set_test(0);
mess.add_test_message()->set_test(0);
mess.add_test_message()->set_test(0);
dump_message_bytes(&mess, "test_repeated_submess_0");
mess.clear_test_message();
mess.add_test_message()->set_test(42);
mess.add_test_message()->set_test(-10000);
mess.add_test_message()->set_test(667);
dump_message_bytes(&mess, "test_repeated_submess_1");
}
#undef DUMP_STATIC_ARRAY_GENERIC
#define DUMP_STATIC_ARRAY_GENERIC(member, static_array, output_array_name) \
do{ \
TestMessPacked mess; \
for (unsigned i = 0; i < N_ELEMENTS (static_array); i++) \
mess.add_##member(static_array[i]); \
dump_message_bytes(&mess, output_array_name); \
}while(0)
static void dump_test_packed_repeated_int32 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_int32, static_array, output_array_name)
DUMP_STATIC_ARRAY (int32_arr0, "test_packed_repeated_int32_arr0");
DUMP_STATIC_ARRAY (int32_arr1, "test_packed_repeated_int32_arr1");
DUMP_STATIC_ARRAY (int32_arr_min_max, "test_packed_repeated_int32_arr_min_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_sint32 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_sint32, static_array, output_array_name)
DUMP_STATIC_ARRAY (int32_arr0, "test_packed_repeated_sint32_arr0");
DUMP_STATIC_ARRAY (int32_arr1, "test_packed_repeated_sint32_arr1");
DUMP_STATIC_ARRAY (int32_arr_min_max, "test_packed_repeated_sint32_arr_min_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_uint32 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_uint32, static_array, output_array_name)
DUMP_STATIC_ARRAY (uint32_roundnumbers, "test_packed_repeated_uint32_roundnumbers");
DUMP_STATIC_ARRAY (uint32_0_max, "test_packed_repeated_uint32_0_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_sfixed32 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_sfixed32, static_array, output_array_name)
DUMP_STATIC_ARRAY (int32_arr0, "test_packed_repeated_sfixed32_arr0");
DUMP_STATIC_ARRAY (int32_arr1, "test_packed_repeated_sfixed32_arr1");
DUMP_STATIC_ARRAY (int32_arr_min_max, "test_packed_repeated_sfixed32_arr_min_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_fixed32 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_fixed32, static_array, output_array_name)
DUMP_STATIC_ARRAY (uint32_roundnumbers, "test_packed_repeated_fixed32_roundnumbers");
DUMP_STATIC_ARRAY (uint32_0_max, "test_packed_repeated_fixed32_0_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_int64 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_int64, static_array, output_array_name)
DUMP_STATIC_ARRAY (int64_roundnumbers, "test_packed_repeated_int64_roundnumbers");
DUMP_STATIC_ARRAY (int64_min_max, "test_packed_repeated_int64_min_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_sint64 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_sint64, static_array, output_array_name)
DUMP_STATIC_ARRAY (int64_roundnumbers, "test_packed_repeated_sint64_roundnumbers");
DUMP_STATIC_ARRAY (int64_min_max, "test_packed_repeated_sint64_min_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_sfixed64 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_sfixed64, static_array, output_array_name)
DUMP_STATIC_ARRAY (int64_roundnumbers, "test_packed_repeated_sfixed64_roundnumbers");
DUMP_STATIC_ARRAY (int64_min_max, "test_packed_repeated_sfixed64_min_max");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_uint64 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC (test_uint64, static_array, output_array_name)
DUMP_STATIC_ARRAY(uint64_roundnumbers, "test_packed_repeated_uint64_roundnumbers");
DUMP_STATIC_ARRAY(uint64_0_1_max, "test_packed_repeated_uint64_0_1_max");
DUMP_STATIC_ARRAY(uint64_random, "test_packed_repeated_uint64_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_fixed64 (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_fixed64, static_array, output_array_name)
DUMP_STATIC_ARRAY(uint64_roundnumbers, "test_packed_repeated_fixed64_roundnumbers");
DUMP_STATIC_ARRAY(uint64_0_1_max, "test_packed_repeated_fixed64_0_1_max");
DUMP_STATIC_ARRAY(uint64_random, "test_packed_repeated_fixed64_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_float (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_float, static_array, output_array_name)
DUMP_STATIC_ARRAY(float_random, "test_packed_repeated_float_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_double (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_double, static_array, output_array_name)
DUMP_STATIC_ARRAY(double_random, "test_packed_repeated_double_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_boolean (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC(test_boolean, static_array, output_array_name)
DUMP_STATIC_ARRAY(boolean_0, "test_packed_repeated_boolean_0");
DUMP_STATIC_ARRAY(boolean_1, "test_packed_repeated_boolean_1");
DUMP_STATIC_ARRAY(boolean_random, "test_packed_repeated_boolean_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_enum_small (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC (test_enum_small, static_array, output_array_name)
DUMP_STATIC_ARRAY (enum_small_0, "test_packed_repeated_enum_small_0");
DUMP_STATIC_ARRAY (enum_small_1, "test_packed_repeated_enum_small_1");
DUMP_STATIC_ARRAY (enum_small_random, "test_packed_repeated_enum_small_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_packed_repeated_enum (void)
{
#define DUMP_STATIC_ARRAY(static_array, output_array_name) \
DUMP_STATIC_ARRAY_GENERIC (test_enum, static_array, output_array_name)
DUMP_STATIC_ARRAY (enum_0, "test_packed_repeated_enum_0");
DUMP_STATIC_ARRAY (enum_1, "test_packed_repeated_enum_1");
DUMP_STATIC_ARRAY (enum_random, "test_packed_repeated_enum_random");
#undef DUMP_STATIC_ARRAY
}
static void dump_test_unknown_fields (void)
{
EmptyMess mess;
const google::protobuf::Message::Reflection *reflection = mess.GetReflection();
google::protobuf::UnknownFieldSet *fs = reflection->MutableUnknownFields(&mess);
#if GOOGLE_PROTOBUF_VERSION >= 2001000
fs->AddVarint(5454, 255);
fs->AddFixed32(5555, 260);
#else
google::protobuf::UnknownField *f;
f = fs->AddField(5454);
f->add_varint(255);
f = fs->AddField(5555);
f->add_fixed32(260);
#endif
dump_message_bytes (&mess, "test_unknown_fields_0");
fs->Clear();
#if GOOGLE_PROTOBUF_VERSION >= 2001000
fs->AddLengthDelimited(6666, "xxxxxxxx");
fs->AddFixed64(7777, 0x10101);
#else
f = fs->AddField(6666);
f->add_length_delimited("xxxxxxxx");
f = fs->AddField(7777);
f->add_fixed64(0x10101);
#endif
dump_message_bytes (&mess, "test_unknown_fields_1");
}
int main()
{
dump_test_enum_small ();
dump_test_enum_big ();
dump_test_field_numbers ();
dump_test_required_int32 ();
dump_test_required_sint32 ();
dump_test_required_sfixed32 ();
dump_test_required_uint32 ();
dump_test_required_fixed32 ();
dump_test_required_int64 ();
dump_test_required_sint64 ();
dump_test_required_sfixed64 ();
dump_test_required_uint64 ();
dump_test_required_fixed64 ();
dump_test_required_float ();
dump_test_required_double ();
dump_test_required_bool ();
dump_test_required_enum_small ();
dump_test_required_enum ();
dump_test_required_string ();
dump_test_required_bytes ();
dump_test_required_message ();
dump_test_optional_int32 ();
dump_test_optional_sint32 ();
dump_test_optional_sfixed32 ();
dump_test_optional_int64 ();
dump_test_optional_sint64 ();
dump_test_optional_sfixed64 ();
dump_test_optional_uint32 ();
dump_test_optional_fixed32 ();
dump_test_optional_uint64 ();
dump_test_optional_fixed64 ();
dump_test_optional_float ();
dump_test_optional_double ();
dump_test_optional_bool ();
dump_test_optional_enum_small ();
dump_test_optional_enum ();
dump_test_optional_string ();
dump_test_optional_bytes ();
dump_test_optional_message ();
dump_test_repeated_int32 ();
dump_test_repeated_sint32 ();
dump_test_repeated_uint32 ();
dump_test_repeated_sfixed32 ();
dump_test_repeated_fixed32 ();
dump_test_repeated_int64 ();
dump_test_repeated_sint64 ();
dump_test_repeated_sfixed64 ();
dump_test_repeated_uint64 ();
dump_test_repeated_fixed64 ();
dump_test_repeated_float ();
dump_test_repeated_double ();
dump_test_repeated_boolean ();
dump_test_repeated_enum_small ();
dump_test_repeated_enum ();
dump_test_repeated_string ();
dump_test_repeated_bytes ();
dump_test_repeated_SubMess ();
dump_test_packed_repeated_int32 ();
dump_test_packed_repeated_sint32 ();
dump_test_packed_repeated_uint32 ();
dump_test_packed_repeated_sfixed32 ();
dump_test_packed_repeated_fixed32 ();
dump_test_packed_repeated_int64 ();
dump_test_packed_repeated_sint64 ();
dump_test_packed_repeated_sfixed64 ();
dump_test_packed_repeated_uint64 ();
dump_test_packed_repeated_fixed64 ();
dump_test_packed_repeated_float ();
dump_test_packed_repeated_double ();
dump_test_packed_repeated_boolean ();
dump_test_packed_repeated_enum_small ();
dump_test_packed_repeated_enum ();
dump_test_unknown_fields ();
return 0;
}