Joseph Doherty
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eea31dcc4e
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Phase 3 PR 24 — Modbus PLC data type extensions. Extends ModbusDataType beyond the textbook Int16/UInt16/Int32/UInt32/Float32 set with Int64/UInt64/Float64 (4-register types), BitInRegister (single bit within a holding register, BitIndex 0-15 LSB-first), and String (ASCII packed 2 chars per register with StringLength-driven sizing). Adds ModbusByteOrder enum on ModbusTagDefinition covering the two word-orderings that matter in the real PLC population: BigEndian (ABCD — Modbus TCP standard, Schneider PLCs that follow it strictly) and WordSwap (CDAB — Siemens S7 family, several Allen-Bradley series, some Modicon families). NormalizeWordOrder helper reverses word pairs in-place for 32-bit values and reverses all four words for 64-bit values (keeps bytes big-endian within each register, which is universal; swaps only the word positions). Internal codec surface switched from (bytes, ModbusDataType) pairs to (bytes, ModbusTagDefinition) because the tag carries the ByteOrder + BitIndex + StringLength context the codec needs; RegisterCount similarly takes the tag so strings can compute ceil(StringLength/2). DriverDataType mapping in MapDataType extended to cover the new logical types — Int64/UInt64 widen to Int32 (PR 25 follow-up: extend DriverDataType enum with Int64 to avoid precision loss), Float64 maps to DriverDataType.Float64, String maps to DriverDataType.String, BitInRegister surfaces as Boolean, all other mappings preserved. BitInRegister writes throw a deliberate InvalidOperationException with a 'read-modify-write' hint — to atomically flip a single bit the driver needs to FC03 the register, OR/AND in the bit, then FC06 it back; that's a separate PR because the bit-modify atomicity story needs a per-register mutex and optional compare-and-write semantics. Everything else (decoder paths for both byte orders, Int64/UInt64/Float64 encode + decode, bit-index extraction across both register halves, String nul-truncation on decode, String nul-padding on encode) ships here. Tests (21 new ModbusDataTypeTests): RegisterCount_returns_correct_register_count_per_type theory (10 rows covering every numeric type); RegisterCount_for_String_rounds_up_to_register_pair theory (5 rows including the 0-char edge case that returns 0 registers); Int32_BigEndian_decodes_ABCD_layout + Int32_WordSwap_decodes_CDAB_layout + Float32_WordSwap_encode_decode_roundtrips (covers the two most-common 32-bit orderings); Int64_BigEndian_roundtrips + UInt64_WordSwap_reverses_four_words (word-swap on 64-bit reverses the four-word layout explicitly, with the test computing the expected wire shape by hand rather than trusting the implementation) + Float64_roundtrips_under_word_swap (3.14159265358979 survives the round-trip with 1e-12 tolerance); BitInRegister_extracts_bit_at_index theory (6 rows including LSB, MSB, and arbitrary bits in a multi-bit mask); BitInRegister_write_is_not_supported_in_PR24 (asserts the exception message steers the reader to the 'read-modify-write' follow-up); String_decodes_ASCII_packed_two_chars_per_register (decodes 'HELLO!' from 3 packed registers with the 'HELLO!'u8 test-only UTF-8 literal which happens to equal the ASCII bytes for this ASCII input); String_decode_truncates_at_first_nul ('Hi' padded with nuls reads back as 'Hi'); String_encode_nul_pads_remaining_bytes (short input writes remaining bytes as 0). Full solution: 0 errors, 217 unit + integration tests pass (22 + 30 new Modbus = 52 Modbus total, 165 pre-existing). ModbusDriver capability footprint now matches the most common industrial PLC workloads — Siemens S7 + Allen-Bradley + Modicon all supported via ByteOrder config without driver forks.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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2026-04-18 12:27:12 -04:00 |
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