示例#1
0
int main(void)
{
    int pass;

    for (pass = 0 ; json_schemas[pass] ; pass++) {
        int rval = 0;
        size_t len;
        static char  buf[4096];
        avro_writer_t  writer;
        avro_file_writer_t file_writer;
        avro_file_reader_t file_reader;
        avro_schema_t  schema = NULL;
        avro_schema_error_t  error = NULL;
        char outpath[64];
        const char *json_schema = json_schemas[pass];

        printf("pass %d with schema %s\n", pass, json_schema);
        check(rval, avro_schema_from_json(json_schema, strlen(json_schema),
                                          &schema, &error));

        avro_value_iface_t  *iface = avro_generic_class_from_schema(schema);

        avro_value_t  val;
        avro_generic_value_new(iface, &val);

        avro_value_t  out;
        avro_generic_value_new(iface, &out);

        /* create the val */
        avro_value_reset(&val);
        avro_value_set_string(&val, "test-1691");

        /* Write value to file */
        snprintf(outpath, sizeof(outpath), "test-1691-%d.avro", pass);

        /* create the writers */
        writer = avro_writer_memory(buf, sizeof(buf));
        check(rval, avro_file_writer_create(outpath, schema, &file_writer));

        check(rval, avro_value_write(writer, &val));

        len = avro_writer_tell(writer);
        check(rval, avro_file_writer_append_encoded(file_writer, buf, len));
        check(rval, avro_file_writer_close(file_writer));

        /* Read the value back */
        check(rval, avro_file_reader(outpath, &file_reader));
        check(rval, avro_file_reader_read_value(file_reader, &out));
        if (!avro_value_equal(&val, &out)) {
            fprintf(stderr, "fail!\n");
            exit(EXIT_FAILURE);
        }
        fprintf(stderr, "pass %d: ok: schema %s\n", pass, json_schema);
        check(rval, avro_file_reader_close(file_reader));
        remove(outpath);
    }

    exit(EXIT_SUCCESS);
}
示例#2
0
static int write_data(int n_records) {
	int  i;
	avro_schema_t schema;
	avro_schema_error_t error;
	avro_file_writer_t writer;
	avro_value_iface_t *iface;
	avro_value_t value;

	fprintf(stderr, "\nWriting...\n");

	if (avro_schema_from_json(PERSON_SCHEMA, 0, &schema, &error)) {
		fprintf(stderr, "Unable to parse schema\n");
		return -1;
	}

	if (avro_file_writer_create(filename, schema, &writer)) {
		fprintf(stderr, "There was an error creating file: %s\n", avro_strerror());
		return -1;
	}

	iface = avro_generic_class_from_schema(schema);
	avro_generic_value_new(iface, &value);

	avro_value_t field;

	avro_value_get_by_index(&value, 0, &field, NULL);
	avro_value_set_int(&field, 123);

	for (i = 0; i < n_records; i++) {
		if (avro_file_writer_append_value(writer, &value)) {
			fprintf(stderr, "There was an error writing file: %s\n", avro_strerror());
			return -1;
		}
	}

	if (avro_file_writer_close(writer)) {
		fprintf(stderr, "There was an error creating file: %s\n", avro_strerror());
		return -1;
	}

	avro_value_decref(&value);
	avro_value_iface_decref(iface);
	avro_schema_decref(schema);

	return n_records;
}
示例#3
0
int main(void)
{
    int rval;
    avro_file_reader_t dbreader;
    avro_file_writer_t db;
    avro_schema_t extraction_schema, name_schema,
                  phone_schema;
    int64_t i;
    const char *dbname = "student.db";

    init();

    /*如果student.db存在,则删除*/
    unlink(dbname);
    /*创建数据库文件*/
    rval = avro_file_writer_create(dbname, student_schema, &db);
    if (rval) {
        fprintf(stderr, "Failed to create %s\n", dbname);
        exit(EXIT_FAILURE);
    }

    /*向数据库文件中添加学生信息*/
    add_student(db, "Zhanghua", "Law", "15201161111", 25);
    add_student(db, "Lili", "Economy", "15201162222", 24);
    add_student(db,"Wangyu","Information","15201163333", 25);
    add_student(db, "Zhaoxin", "Art", "15201164444", 23);
    add_student(db, "Sunqin", "Physics", "15201165555", 25);
    add_student(db, "Zhouping", "Math", "15201166666", 23);
    avro_file_writer_close(db);

    fprintf(stdout, "\nPrint all the records from database\n");

    /*读取并输出所有的学生信息*/
    avro_file_reader(dbname, &dbreader);
    for (i = 0; i < id; i++) {
        if (show_student(dbreader, NULL)) {
            fprintf(stderr, "Error printing student\n");
            exit(EXIT_FAILURE);
        }
    }
    avro_file_reader_close(dbreader);

    /*输出学生的姓名和电话信息*/
    extraction_schema = avro_schema_record("Student", NULL);
    name_schema = avro_schema_string();
    phone_schema = avro_schema_string();
    avro_schema_record_field_append(extraction_schema,
                                    "Name", name_schema);
    avro_schema_record_field_append(extraction_schema, "Phone", phone_schema);

    /*只读取每个学生的姓名和电话*/
    fprintf(stdout,
            "\n\nExtract Name & Phone of the records from database\n");
    avro_file_reader(dbname, &dbreader);
    for (i = 0; i < id; i++) {
        if (show_student(dbreader, extraction_schema)) {
            fprintf(stderr, "Error printing student\n");
            exit(EXIT_FAILURE);
        }
    }
    avro_file_reader_close(dbreader);
    avro_schema_decref(name_schema);
    avro_schema_decref(phone_schema);
    avro_schema_decref(extraction_schema);

    /*最后释放学生模式*/
    avro_schema_decref(student_schema);
    return 0;
}
示例#4
0
static void
write_data(const char *filename)
{
    avro_file_writer_t  file;
    avro_schema_t  writer_schema;
    avro_schema_error_t  error;
    avro_value_iface_t  *writer_iface;
    avro_value_t  writer_value;
    avro_value_t  field;

    // First parse the JSON schema into the C API's internal schema
    // representation.
    check_i(avro_schema_from_json(WRITER_SCHEMA, 0, &writer_schema, &error));

    // Then create a value that is an instance of that schema.  We use the
    // built-in "generic" value implementation, which is what you'll usually use
    // to create value instances that can actually store data.  We only need to
    // create one instance, since we can re-use it for all of the values that
    // we're going to write into the file.
    check_p(writer_iface = avro_generic_class_from_schema(writer_schema));
    check_i(avro_generic_value_new(writer_iface, &writer_value));

    // Open a new data file for writing, and then write a slew of records into
    // it.
    check_i(avro_file_writer_create(filename, writer_schema, &file));

    /* record 1 */
    check_i(avro_value_get_by_name(&writer_value, "a", &field, NULL));
    check_i(avro_value_set_int(&field, 10));
    check_i(avro_value_get_by_name(&writer_value, "b", &field, NULL));
    check_i(avro_value_set_int(&field, 11));
    check_i(avro_file_writer_append_value(file, &writer_value));

    /* record 2 */
    check_i(avro_value_get_by_name(&writer_value, "a", &field, NULL));
    check_i(avro_value_set_int(&field, 20));
    check_i(avro_value_get_by_name(&writer_value, "b", &field, NULL));
    check_i(avro_value_set_int(&field, 21));
    check_i(avro_file_writer_append_value(file, &writer_value));

    /* record 3 */
    check_i(avro_value_get_by_name(&writer_value, "a", &field, NULL));
    check_i(avro_value_set_int(&field, 30));
    check_i(avro_value_get_by_name(&writer_value, "b", &field, NULL));
    check_i(avro_value_set_int(&field, 31));
    check_i(avro_file_writer_append_value(file, &writer_value));

    /* record 4 */
    check_i(avro_value_get_by_name(&writer_value, "a", &field, NULL));
    check_i(avro_value_set_int(&field, 40));
    check_i(avro_value_get_by_name(&writer_value, "b", &field, NULL));
    check_i(avro_value_set_int(&field, 41));
    check_i(avro_file_writer_append_value(file, &writer_value));

    /* record 5 */
    check_i(avro_value_get_by_name(&writer_value, "a", &field, NULL));
    check_i(avro_value_set_int(&field, 50));
    check_i(avro_value_get_by_name(&writer_value, "b", &field, NULL));
    check_i(avro_value_set_int(&field, 51));
    check_i(avro_file_writer_append_value(file, &writer_value));

    // Close the file and clean up after ourselves.
    avro_file_writer_close(file);
    avro_value_decref(&writer_value);
    avro_value_iface_decref(writer_iface);
    avro_schema_decref(writer_schema);
}
示例#5
0
int main(int argc, char *argv[])
{
	int rval;
	avro_file_writer_t file_writer;
	avro_file_reader_t file_reader;
	char outpath[128];
	FILE *fp;
	char jsontext[16 * 1024];
	avro_schema_t schema;
	avro_schema_error_t schema_error;
	avro_datum_t interop;
	avro_datum_t array_datum;
	avro_datum_t node_datum;
	avro_datum_t union_datum;
	avro_datum_t out_datum;
	enum Kind {
		KIND_A,
		KIND_B,
		KIND_C
	};

	if (argc != 3) {
		exit(EXIT_FAILURE);
	}
	snprintf(outpath, sizeof(outpath), "%s/c.avro", argv[2]);
	fprintf(stderr, "Writing to %s\n", outpath);

	fp = fopen(argv[1], "r");
	rval = fread(jsontext, 1, sizeof(jsontext) - 1, fp);
	jsontext[rval] = '\0';

	check(rval,
	      avro_schema_from_json(jsontext, rval, &schema, &schema_error));
	check(rval, avro_file_writer_create(outpath, schema, &file_writer));

	/* TODO: create a method for generating random data from schema */
	interop = avro_record("Interop", "org.apache.avro");
	avro_record_set(interop, "intField", avro_int32(42));
	avro_record_set(interop, "longField", avro_int64(4242));
	avro_record_set(interop, "stringField",
			avro_wrapstring("Follow your bliss."));
	avro_record_set(interop, "boolField", avro_boolean(1));
	avro_record_set(interop, "floatField", avro_float(3.14159265));
	avro_record_set(interop, "doubleField", avro_double(2.71828183));
	avro_record_set(interop, "bytesField", avro_bytes("abcd", 4));
	avro_record_set(interop, "nullField", avro_null());

	array_datum = avro_array();
	avro_array_append_datum(array_datum, avro_double(1.0));
	avro_array_append_datum(array_datum, avro_double(2.0));
	avro_array_append_datum(array_datum, avro_double(3.0));
	avro_record_set(interop, "arrayField", array_datum);

	avro_record_set(interop, "mapField", avro_map());
	union_datum = avro_union(1, avro_double(1.61803399));
	avro_record_set(interop, "unionField", union_datum);
	avro_record_set(interop, "enumField", avro_enum("Kind", KIND_A));
	avro_record_set(interop, "fixedField",
			avro_fixed("MD5", "1234567890123456", 16));

	node_datum = avro_record("Node", NULL);
	avro_record_set(node_datum, "label",
			avro_wrapstring("If you label me, you negate me."));
	avro_record_set(node_datum, "children", avro_array());
	avro_record_set(interop, "recordField", node_datum);

	rval = avro_file_writer_append(file_writer, interop);
	if (rval) {
		fprintf(stderr, "Unable to append data to interop file!\n");
		exit(EXIT_FAILURE);
	} else {
		fprintf(stderr, "Successfully appended datum to file\n");
	}

	check(rval, avro_file_writer_close(file_writer));
	fprintf(stderr, "Closed writer.\n");

	check(rval, avro_file_reader(outpath, &file_reader));
	fprintf(stderr, "Re-reading datum to verify\n");
	check(rval, avro_file_reader_read(file_reader, NULL, &out_datum));
	fprintf(stderr, "Verifying datum...");
	if (!avro_datum_equal(interop, out_datum)) {
		fprintf(stderr, "fail!\n");
		exit(EXIT_FAILURE);
	}
	fprintf(stderr, "ok\n");
	check(rval, avro_file_reader_close(file_reader));
	fprintf(stderr, "Closed reader.\n");
	return 0;
}