#!/usr/bin/python3 """Unit tests for auto_analyse_raw_data.py""" from io import StringIO import unittest import auto_analyse_raw_data as analyse # pylint: disable=too-many-lines class TestRawIRMessage(unittest.TestCase): """Unit tests for the RawIRMessage class.""" # pylint: disable=too-many-public-methods def test_display_binary(self): """Test the display_binary() method.""" output = StringIO() message = analyse.RawIRMessage(100, [8000, 4000, 500, 500, 500], output, False) self.assertEqual(output.getvalue(), '') message.display_binary("10101010") message.display_binary("0000000000000000") message.display_binary("00010010001101000101011001111000") self.assertEqual( output.getvalue(), '\n' ' Bits: 8\n' ' Hex: 0xAA (MSB first)\n' ' 0x55 (LSB first)\n' ' Dec: 170 (MSB first)\n' ' 85 (LSB first)\n' ' Bin: 0b10101010 (MSB first)\n' ' 0b01010101 (LSB first)\n' '\n' ' Bits: 16\n' ' Hex: 0x0000 (MSB first)\n' ' 0x0000 (LSB first)\n' ' Dec: 0 (MSB first)\n' ' 0 (LSB first)\n' ' Bin: 0b0000000000000000 (MSB first)\n' ' 0b0000000000000000 (LSB first)\n' '\n' ' Bits: 32\n' ' Hex: 0x12345678 (MSB first)\n' ' 0x1E6A2C48 (LSB first)\n' ' Dec: 305419896 (MSB first)\n' ' 510274632 (LSB first)\n' ' Bin: 0b00010010001101000101011001111000 (MSB first)\n' ' 0b00011110011010100010110001001000 (LSB first)\n') class TestAutoAnalyseRawData(unittest.TestCase): """Unit tests for the functions in AutoAnalyseRawData.""" # pylint: disable=too-many-public-methods def test_avg_list(self): """Tests for the avg_list method.""" self.assertEqual(0, analyse.avg_list([])) self.assertEqual(23, analyse.avg_list([10, 20, 40])) def test_dump_constants_simple(self): """Simple tests for the dump_constants() function.""" ignore = StringIO() output = StringIO() defs = [] message = analyse.RawIRMessage(200, [ 7930, 3952, 494, 1482, 520, 1482, 494, 1508, 494, 520, 494, 1482, 494, 520, 494, 1482, 494, 1482, 494, 3978, 494, 520, 494, 520, 494, 520, 494, 520, 520, 520, 494, 520, 494, 520, 494, 1482, 494 ], ignore) analyse.dump_constants(message, defs, "BAR", output) self.assertEqual(defs, [ 'const uint16_t kBARHdrMark = 7930;', 'const uint16_t kBARBitMark = 496;', 'const uint16_t kBARHdrSpace = 3965;', 'const uint16_t kBAROneSpace = 1485;', 'const uint16_t kBARZeroSpace = 520;', 'const uint16_t kBARFreq = 38000; // Hz. (Guessing the most common ' 'frequency.)' ]) self.assertEqual( output.getvalue(), 'Guessing key value:\n' 'kBARHdrMark = 7930\n' 'kBARHdrSpace = 3965\n' 'kBARBitMark = 496\n' 'kBAROneSpace = 1485\n' 'kBARZeroSpace = 520\n') def test_dump_constants_aircon(self): """More complex tests for the dump_constants() function.""" ignore = StringIO() output = StringIO() defs = [] message = analyse.RawIRMessage(200, [ 9008, 4496, 644, 1660, 676, 530, 648, 558, 672, 1636, 646, 1660, 644, 556, 650, 584, 626, 560, 644, 580, 628, 1680, 624, 560, 648, 1662, 644, 582, 648, 536, 674, 530, 646, 580, 628, 560, 670, 532, 646, 562, 644, 556, 672, 536, 648, 1662, 646, 1660, 652, 554, 644, 558, 672, 538, 644, 560, 668, 560, 648, 1638, 668, 536, 644, 1660, 668, 532, 648, 560, 648, 1660, 674, 554, 622, 19990, 646, 580, 624, 1660, 648, 556, 648, 558, 674, 556, 622, 560, 644, 564, 668, 536, 646, 1662, 646, 1658, 672, 534, 648, 558, 644, 562, 648, 1662, 644, 584, 622, 558, 648, 562, 668, 534, 670, 536, 670, 532, 672, 536, 646, 560, 646, 558, 648, 558, 670, 534, 650, 558, 646, 560, 646, 560, 668, 1638, 646, 1662, 646, 1660, 646, 1660, 648 ], ignore) analyse.dump_constants(message, defs, "TEST", output) self.assertEqual(defs, [ 'const uint16_t kTESTHdrMark = 9008;', 'const uint16_t kTESTBitMark = 650;', 'const uint16_t kTESTHdrSpace = 4496;', 'const uint16_t kTESTOneSpace = 1657;', 'const uint16_t kTESTZeroSpace = 554;', 'const uint16_t kTESTSpaceGap = 19990;', 'const uint16_t kTESTFreq = 38000; // Hz. (Guessing the most common ' 'frequency.)' ]) self.assertEqual( output.getvalue(), 'Guessing key value:\n' 'kTESTHdrMark = 9008\n' 'kTESTHdrSpace = 4496\n' 'kTESTBitMark = 650\n' 'kTESTOneSpace = 1657\n' 'kTESTZeroSpace = 554\n' 'kTESTSpaceGap = 19990\n') def test_convert_rawdata(self): """Tests for the convert_rawdata() function.""" # trivial cases self.assertEqual(analyse.convert_rawdata("0"), [0]) with self.assertRaises(ValueError) as context: analyse.convert_rawdata("") self.assertEqual( str(context.exception), "Raw Data contains a non-numeric value of ''.") # Single parenthesis self.assertEqual(analyse.convert_rawdata("foo {10"), [10]) self.assertEqual(analyse.convert_rawdata("20} bar"), [20]) # No parentheses self.assertEqual(analyse.convert_rawdata("10,20 , 30"), [10, 20, 30]) # Dual parentheses self.assertEqual(analyse.convert_rawdata("{10,20 , 30}"), [10, 20, 30]) self.assertEqual(analyse.convert_rawdata("foo{10,20}bar"), [10, 20]) # Many parentheses self.assertEqual(analyse.convert_rawdata("foo{10,20}{bar}"), [10, 20]) self.assertEqual(analyse.convert_rawdata("foo{10,20}{bar}}{"), [10, 20]) # Bad parentheses with self.assertRaises(ValueError) as context: analyse.convert_rawdata("}10{") self.assertEqual( str(context.exception), "Raw Data not parsible due to parentheses placement.") # Non base-10 values with self.assertRaises(ValueError) as context: analyse.convert_rawdata("10, 20, foo, bar, 30") self.assertEqual( str(context.exception), "Raw Data contains a non-numeric value of 'foo'.") # A messy usual "good" case. input_str = """uint16_t rawbuf[6] = { 9008, 4496, 644, 1660, 676, 530} ;""" self.assertEqual( analyse.convert_rawdata(input_str), [9008, 4496, 644, 1660, 676, 530]) def test_parse_and_report(self): """Tests for the parse_and_report() function.""" # Without code generation. output = StringIO() input_str = """ uint16_t rawbuf[139] = {9008, 4496, 644, 1660, 676, 530, 648, 558, 672, 1636, 646, 1660, 644, 556, 650, 584, 626, 560, 644, 580, 628, 1680, 624, 560, 648, 1662, 644, 582, 648, 536, 674, 530, 646, 580, 628, 560, 670, 532, 646, 562, 644, 556, 672, 536, 648, 1662, 646, 1660, 652, 554, 644, 558, 672, 538, 644, 560, 668, 560, 648, 1638, 668, 536, 644, 1660, 668, 532, 648, 560, 648, 1660, 674, 554, 622, 19990, 646, 580, 624, 1660, 648, 556, 648, 558, 674, 556, 622, 560, 644, 564, 668, 536, 646, 1662, 646, 1658, 672, 534, 648, 558, 644, 562, 648, 1662, 644, 584, 622, 558, 648, 562, 668, 534, 670, 536, 670, 532, 672, 536, 646, 560, 646, 558, 648, 558, 670, 534, 650, 558, 646, 560, 646, 560, 668, 1638, 646, 1662, 646, 1660, 646, 1660, 648};""" analyse.parse_and_report(input_str, 200, False, "FOO", output) self.assertEqual( output.getvalue(), 'Found 139 timing entries.\n' 'Potential Mark Candidates:\n' '[9008, 676]\n' 'Potential Space Candidates:\n' '[19990, 4496, 1680, 584]\n' '\n' 'Guessing encoding type:\n' 'Looks like it uses space encoding. Yay!\n' '\n' 'Guessing key value:\n' 'kFOOHdrMark = 9008\n' 'kFOOHdrSpace = 4496\n' 'kFOOBitMark = 650\n' 'kFOOOneSpace = 1657\n' 'kFOOZeroSpace = 554\n' 'kFOOSpaceGap = 19990\n' '\n' 'Decoding protocol based on analysis so far:\n' '\n' 'kFOOHdrMark+kFOOHdrSpace+10011000010100000000011000001010010GAP(19990)' '\n' ' Bits: 35\n' ' Hex: 0x4C2803052 (MSB first)\n' ' 0x250600A19 (LSB first)\n' ' Dec: 20443050066 (MSB first)\n' ' 9938405913 (LSB first)\n' ' Bin: 0b10011000010100000000011000001010010 (MSB first)\n' ' 0b01001010000011000000000101000011001 (LSB first)\n' 'kFOOBitMark(UNEXPECTED)01000000110001000000000000001111\n' ' Bits: 32\n' ' Hex: 0x40C4000F (MSB first)\n' ' 0xF0002302 (LSB first)\n' ' Dec: 1086586895 (MSB first)\n' ' 4026540802 (LSB first)\n' ' Bin: 0b01000000110001000000000000001111 (MSB first)\n' ' 0b11110000000000000010001100000010 (LSB first)\n' '\n' 'Total Nr. of suspected bits: 67\n') # With code generation. output = StringIO() input_str = """ uint16_t rawbuf[37] = {7930, 3952, 494, 1482, 520, 1482, 494, 1508, 494, 520, 494, 1482, 494, 520, 494, 1482, 494, 1482, 494, 3978, 494, 520, 494, 520, 494, 520, 494, 520, 520, 520, 494, 520, 494, 520, 494, 1482, 494};""" analyse.parse_and_report(input_str, 200, True, "FOO", output) self.assertEqual( output.getvalue(), 'Found 37 timing entries.\n' 'Potential Mark Candidates:\n' '[7930, 520]\n' 'Potential Space Candidates:\n' '[3978, 1508, 520]\n' '\n' 'Guessing encoding type:\n' 'Looks like it uses space encoding. Yay!\n' '\n' 'Guessing key value:\n' 'kFOOHdrMark = 7930\n' 'kFOOHdrSpace = 3965\n' 'kFOOBitMark = 496\n' 'kFOOOneSpace = 1485\n' 'kFOOZeroSpace = 520\n' '\n' 'Decoding protocol based on analysis so far:\n' '\n' 'kFOOHdrMark+kFOOHdrSpace+11101011\n' ' Bits: 8\n' ' Hex: 0xEB (MSB first)\n' ' 0xD7 (LSB first)\n' ' Dec: 235 (MSB first)\n' ' 215 (LSB first)\n' ' Bin: 0b11101011 (MSB first)\n' ' 0b11010111 (LSB first)\n' 'UNEXPECTED->kFOOHdrSpace+00000001\n' ' Bits: 8\n' ' Hex: 0x01 (MSB first)\n' ' 0x80 (LSB first)\n' ' Dec: 1 (MSB first)\n' ' 128 (LSB first)\n' ' Bin: 0b00000001 (MSB first)\n' ' 0b10000000 (LSB first)\n' '\n' 'Total Nr. of suspected bits: 16\n' '\n' 'Generating a VERY rough code outline:\n' '\n' '// Copyright 2019 David Conran (crankyoldgit)\n' '// Support for FOO protocol\n' '\n' '#include "IRrecv.h"\n' '#include "IRsend.h"\n' '#include "IRutils.h"\n' '\n' "// WARNING: This probably isn't directly usable. It's a guide only.\n" '\n' '// See https://github.com/crankyoldgit/IRremoteESP8266/wiki/' 'Adding-support-for-a-new-IR-protocol\n' '// for details of how to include this in the library.\n' 'const uint16_t kFOOHdrMark = 7930;\n' 'const uint16_t kFOOBitMark = 496;\n' 'const uint16_t kFOOHdrSpace = 3965;\n' 'const uint16_t kFOOOneSpace = 1485;\n' 'const uint16_t kFOOZeroSpace = 520;\n' 'const uint16_t kFOOFreq = 38000; // Hz. (Guessing the most common' ' frequency.)\n' 'const uint16_t kFOOBits = 16; // Move to IRremoteESP8266.h\n' 'const uint16_t kFOOOverhead = 5;\n' '#if SEND_FOO\n' '// Function should be safe up to 64 bits.\n' 'void IRsend::sendFOO(const uint64_t data, const uint16_t nbits,' ' const uint16_t repeat) {\n' ' enableIROut(kFOOFreq);\n' ' for (uint16_t r = 0; r <= repeat; r++) {\n' ' uint64_t send_data = data;\n' ' // Header\n' ' mark(kFOOHdrMark);\n' ' space(kFOOHdrSpace);\n' ' // Data Section #1\n' ' // e.g. data = 0xEB, nbits = 8\n' ' sendData(kFOOBitMark, kFOOOneSpace, kFOOBitMark, kFOOZeroSpace,' ' send_data, 8, true);\n' ' send_data >>= 8;\n' ' // Footer\n' ' mark(kFOOBitMark);\n' ' space(kFOOHdrSpace);\n' ' // Data Section #2\n' ' // e.g. data = 0x1, nbits = 8\n' ' sendData(kFOOBitMark, kFOOOneSpace, kFOOBitMark, kFOOZeroSpace,' ' send_data, 8, true);\n' ' send_data >>= 8;\n' ' // Footer\n' ' mark(kFOOBitMark);\n' ' space(kDefaultMessageGap); // A 100% made up guess of the gap' ' between messages.\n' ' }\n' '}\n' '#endif // SEND_FOO\n' '\n' '#if DECODE_FOO\n' '// Function should be safe up to 64 bits.\n' 'bool IRrecv::decodeFOO(decode_results *results, const uint16_t nbits,' ' const bool strict) {\n' ' if (results->rawlen < 2 * nbits + kFOOOverhead)\n' ' return false; // Too short a message to match.\n' ' if (strict && nbits != kFOOBits)\n' ' return false;\n' '\n' ' uint16_t offset = kStartOffset;\n' ' uint64_t data = 0;\n' ' match_result_t data_result;\n' '\n' ' // Header\n' ' if (!matchMark(results->rawbuf[offset++], kFOOHdrMark))\n' ' return false;\n' ' if (!matchSpace(results->rawbuf[offset++], kFOOHdrSpace))\n' ' return false;\n' '\n' ' // Data Section #1\n' ' // e.g. data_result.data = 0xEB, nbits = 8\n' ' data_result = matchData(&(results->rawbuf[offset]), 8,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace);\n' ' offset += data_result.used;\n' ' if (data_result.success == false) return false; // Fail\n' ' data <<= 8; // Make room for the new bits of data.\n' ' data |= data_result.data;\n' '\n' ' // Footer\n' ' if (!matchMark(results->rawbuf[offset++], kFOOBitMark))\n' ' return false;\n' ' if (!matchSpace(results->rawbuf[offset++], kFOOHdrSpace))\n' ' return false;\n' '\n' ' // Data Section #2\n' ' // e.g. data_result.data = 0x1, nbits = 8\n' ' data_result = matchData(&(results->rawbuf[offset]), 8,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace);\n' ' offset += data_result.used;\n' ' if (data_result.success == false) return false; // Fail\n' ' data <<= 8; // Make room for the new bits of data.\n' ' data |= data_result.data;\n' '\n' ' // Footer\n' ' if (!matchMark(results->rawbuf[offset++], kFOOBitMark))\n' ' return false;\n' '\n' ' // Success\n' ' results->decode_type = decode_type_t::FOO;\n' ' results->bits = nbits;\n' ' results->value = data;\n' ' results->command = 0;\n' ' results->address = 0;\n' ' return true;\n' '}\n' '#endif // DECODE_FOO\n') def test_reduce_list(self): """Tests for the reduce_list method.""" ignore = StringIO() message = analyse.RawIRMessage(200, [ 7930, 3952, 494, 1482, 520, 1482, 494, 1508, 494, 520, 494, 1482, 494, 520, 494, 1482, 494, 1482, 494, 3978, 494, 520, 494, 520, 494, 520, 494, 520, 520, 520, 494, 520, 494, 520, 494, 1482, 494 ], ignore) test_space_data = [4496, 1660, 530, 558, 1636, 1660, 556] result_list, result_dict = message.reduce_list(test_space_data) self.assertEqual([4496, 1660, 558], result_list) self.assertEqual({ 558: [558, 556, 530], 1660: [1660, 1660, 1636], 4496: [4496] }, result_dict) def test_leader_marks(self): """Tests for leader-type marks in parse_and_report() function.""" # Ref Issue #973 output = StringIO() input_str = """ uint16_t rawData[853] = { 29784, 49290, 3416, 1604, 464, 1210, 468, 372, 460, 374, 462, 374, 466, 368, 464, 372, 462, 374, 464, 374, 464, 368, 464, 370, 464, 370, 466, 370, 464, 1208, 464, 374, 462, 372, 466, 374, 464, 370, 462, 372, 464, 370, 466, 370, 464, 372, 462, 374, 462, 374, 462, 378, 460, 370, 460, 374, 464, 372, 462, 372, 464, 374, 466, 368, 464, 1210, 464, 374, 466, 1202, 464, 1206, 464, 1210, 466, 1206, 468, 1204, 464, 1210, 466, 370, 462, 1214, 460, 1208, 464, 1206, 464, 1208, 466, 1208, 464, 1206, 466, 1208, 464, 1206, 466, 1212, 464, 370, 464, 370, 462, 374, 462, 374, 462, 374, 462, 374, 462, 372, 464, 376, 460, 372, 462, 374, 466, 1204, 464, 1210, 464, 372, 460, 374, 462, 1208, 464, 1212, 464, 1202, 468, 1204, 464, 374, 460, 374, 466, 1208, 462, 1210, 462, 374, 462, 376, 464, 368, 466, 1204, 462, 374, 466, 372, 464, 1206, 462, 376, 460, 376, 464, 1210, 462, 1208, 462, 372, 466, 1206, 464, 1208, 466, 372, 462, 1210, 462, 1210, 466, 374, 468, 1202, 464, 1206, 466, 374, 462, 372, 464, 1208, 464, 374, 464, 372, 464, 376, 462, 370, 466, 368, 464, 1208, 462, 1210, 460, 374, 464, 1208, 466, 1206, 464, 1214, 464, 368, 462, 374, 462, 1212, 460, 1210, 466, 1206, 466, 370, 462, 1210, 464, 416, 424, 1202, 466, 1220, 448, 376, 464, 372, 462, 372, 462, 1212, 462, 374, 460, 1214, 468, 364, 468, 370, 462, 372, 462, 376, 458, 374, 464, 372, 462, 376, 464, 376, 462, 1204, 464, 1210, 462, 1210, 464, 1208, 466, 1208, 464, 1206, 462, 1210, 464, 1212, 464, 368, 462, 372, 464, 372, 464, 372, 464, 372, 466, 370, 466, 370, 464, 376, 464, 1202, 464, 1212, 464, 1204, 464, 1210, 462, 1208, 464, 1212, 462, 1210, 464, 1212, 460, 372, 462, 374, 462, 374, 466, 370, 462, 374, 462, 372, 464, 372, 462, 376, 462, 1206, 464, 1206, 466, 1210, 462, 1208, 464, 1210, 466, 1204, 464, 1210, 462, 1214, 462, 368, 462, 374, 466, 370, 462, 376, 466, 368, 466, 370, 462, 414, 424, 374, 464, 1206, 464, 1206, 464, 1206, 468, 1206, 466, 1206, 466, 1210, 462, 1206, 464, 1214, 468, 364, 466, 372, 466, 370, 462, 372, 462, 374, 464, 372, 462, 374, 460, 376, 466, 1204, 464, 1208, 462, 1210, 464, 1206, 464, 1210, 464, 1208, 464, 1208, 466, 1210, 462, 1206, 466, 1206, 466, 372, 462, 374, 466, 1206, 466, 370, 464, 1206, 466, 376, 464, 368, 462, 372, 466, 1206, 464, 1206, 464, 374, 466, 1204, 464, 374, 466, 1206, 466, 1204, 468, 368, 466, 370, 466, 370, 462, 1212, 462, 1210, 462, 1210, 462, 1214, 464, 368, 464, 1206, 466, 1206, 466, 1206, 464, 374, 464, 370, 466, 370, 462, 378, 466, 366, 464, 372, 466, 368, 466, 370, 464, 370, 462, 372, 462, 374, 464, 374, 464, 1202, 466, 1206, 462, 1208, 466, 1208, 466, 1208, 464, 1210, 462, 1206, 464, 1212, 464, 368, 464, 372, 464, 370, 468, 368, 462, 376, 462, 372, 466, 370, 464, 376, 462, 1206, 464, 1210, 462, 1212, 462, 1208, 464, 1208, 462, 1212, 466, 1246, 424, 1212, 464, 368, 464, 372, 466, 370, 464, 372, 462, 374, 464, 372, 464, 370, 462, 1212, 466, 1206, 462, 1206, 464, 1210, 466, 1206, 462, 1208, 464, 1250, 422, 1208, 468, 372, 464, 1204, 466, 1206, 466, 370, 462, 374, 462, 376, 460, 374, 466, 370, 462, 376, 464, 368, 462, 376, 462, 1210, 462, 1208, 464, 1206, 466, 1206, 464, 1208, 468, 1212, 460, 1206, 464, 372, 464, 372, 466, 370, 462, 374, 466, 370, 466, 370, 466, 374, 464, 368, 462, 1210, 462, 1210, 464, 1210, 462, 1208, 462, 1212, 464, 1206, 466, 1208, 466, 366, 464, 374, 460, 374, 462, 1208, 466, 372, 462, 374, 462, 374, 464, 1212, 468, 1202, 464, 1208, 466, 1204, 464, 376, 460, 1208, 468, 1208, 462, 1208, 464, 378, 460, 372, 460, 372, 462, 376, 464, 372, 462, 374, 460, 374, 464, 370, 462, 378, 464, 1202, 468, 1204, 468, 1204, 466, 1208, 466, 1208, 464, 1210, 460, 1212, 462, 1212, 464, 366, 466, 370, 464, 372, 466, 370, 464, 372, 462, 414, 424, 372, 466, 372, 460, 1206, 466, 1206, 466, 1206, 466, 1208, 466, 1206, 464, 1208, 466, 1208, 462, 1212, 468, 1202, 466, 1204, 470, 1204, 468, 1204, 466, 1206, 466, 1206, 464, 1210, 462, 1212, 468, 366, 464, 372, 462, 374, 460, 374, 460, 374, 466, 410, 424, 372, 460, 378, 466, 1200, 464, 1212, 462, 1210, 464, 1210, 466, 1206, 462, 1208, 464, 1210, 464, 1210, 464, 366, 462, 376, 462, 374, 460, 376, 462, 372, 466, 374, 460, 372, 462, 378, 462, 1202, 468, 1206, 464, 1208, 466, 1208, 462, 1208, 464, 1208, 468, 1204, 464, 1212, 466, 368, 462, 374, 466, 372, 464, 370, 462, 374, 464, 370, 462, 376, 464, 374, 462, 1206, 464, 1208, 462, 1210, 466, 1208, 460, 1210, 468, 1206, 462, 1210, 464, 1212, 466, 366, 464, 374, 462, 372, 466, 370, 462, 374, 464, 372, 464, 370, 464, 374, 462};""" analyse.parse_and_report(input_str, 200, True, "Hitachi", output) self.assertEqual( output.getvalue(), 'Found 853 timing entries.\n' 'Potential Mark Candidates:\n' '[29784, 3416, 470]\n' 'Potential Space Candidates:\n' '[49290, 1604, 1250, 416]\n' 'DANGER: Unusual number of mark timings!\n' 'Guessing encoding type:\n' 'Looks like it uses space encoding. Yay!\n' '\n' 'Guessing key value:\n' 'kHitachiHdrMark = 3416\n' 'kHitachiHdrSpace = 1604\n' 'kHitachiBitMark = 463\n' 'kHitachiOneSpace = 1208\n' 'kHitachiZeroSpace = 372\n' 'kHitachiLdrMark = 29784\n' 'kHitachiSpaceGap = 49290\n' '\n' 'Decoding protocol based on analysis so far:\n' '\n' 'kHitachiLdrMark+UNEXPECTED->GAP(49290)kHitachiHdrMark+' 'kHitachiHdrSpace+100000000000100000000000000000101111110111111111' '0000000000110011110011000100100110110110110010000011011100111010110001' '010000000011111111000000001111111100000000111111110000000011111111' '0000000011111111110010100011010110001111011100000000000011111111' '0000000011111111000000011111111011000000001111111000000001111111' '0001000111101110000000001111111100000000111111111111111100000000' '111111110000000011111111000000001111111100000000\n' ' Bits: 424\n' ' Hex: 0x80080002FDFF0033CC49B6C8373AC500FF00FF00FF00FF00FFCA358F7000' 'FF00FF01FEC03F807F11EE00FF00FFFF00FF00FF00FF00 (MSB first)\n' ' 0x00FF00FF00FF00FFFF00FF007788FE01FC037F80FF00FF000EF1AC53FF00' 'FF00FF00FF00FF00A35CEC136D9233CC00FFBF40001001 (LSB first)\n' ' Dec: 21666770463250971033249250747302630158357464218891161163035832' '525825434564377831675503794869126268735511944198247894513495375616' ' (MSB first)\n' ' 16857184424372658669179408622645041920057617761062334415219526' '0950249734545225589859643087812860908833344117446370839379316737' ' (LSB first)\n' ' Bin: 0b100000000000100000000000000000101111110111111111000000000011' '00111100110001001001101101101100100000110111001110101100010100000000' '1111111100000000111111110000000011111111000000001111111100000000' '1111111111001010001101011000111101110000000000001111111100000000' '1111111100000001111111101100000000111111100000000111111100010001' '1110111000000000111111110000000011111111111111110000000011111111' '0000000011111111000000001111111100000000 (MSB first)\n' ' 0b000000001111111100000000111111110000000011111111000000001111' '11111111111100000000111111110000000001110111100010001111111000000001' '1111110000000011011111111000000011111111000000001111111100000000' '0000111011110001101011000101001111111111000000001111111100000000' '1111111100000000111111110000000011111111000000001010001101011100' '1110110000010011011011011001001000110011110011000000000011111111' '1011111101000000000000000001000000000001 (LSB first)\n' '\n' 'Total Nr. of suspected bits: 424\n' '\n' 'Generating a VERY rough code outline:\n' '\n' '// Copyright 2019 David Conran (crankyoldgit)\n' '// Support for Hitachi protocol\n' '\n' '#include "IRrecv.h"\n' '#include "IRsend.h"\n' '#include "IRutils.h"\n' '\n' "// WARNING: This probably isn't directly usable. It's a guide only.\n" '\n' '// See https://github.com/crankyoldgit/IRremoteESP8266/wiki/' 'Adding-support-for-a-new-IR-protocol\n' '// for details of how to include this in the library.\n' 'const uint16_t kHitachiHdrMark = 3416;\n' 'const uint16_t kHitachiBitMark = 463;\n' 'const uint16_t kHitachiHdrSpace = 1604;\n' 'const uint16_t kHitachiOneSpace = 1208;\n' 'const uint16_t kHitachiZeroSpace = 372;\n' 'const uint16_t kHitachiLdrMark = 29784;\n' 'const uint16_t kHitachiSpaceGap = 49290;\n' 'const uint16_t kHitachiFreq = 38000; // Hz. (Guessing the most' ' common frequency.)\n' 'const uint16_t kHitachiBits = 424; // Move to IRremoteESP8266.h\n' 'const uint16_t kHitachiStateLength = 53; // Move to IRremoteESP8266.h' '\n' 'const uint16_t kHitachiOverhead = 5;\n' "// DANGER: More than 64 bits detected. A uint64_t for 'data' won't" ' work!\n' '#if SEND_HITACHI\n' '// Function should be safe up to 64 bits.\n' 'void IRsend::sendHitachi(const uint64_t data, const uint16_t nbits,' ' const uint16_t repeat) {\n' ' enableIROut(kHitachiFreq);\n' ' for (uint16_t r = 0; r <= repeat; r++) {\n' ' uint64_t send_data = data;\n' ' // Leader\n' ' mark(kHitachiLdrMark);\n' ' // Gap\n' ' space(kHitachiSpaceGap);\n' ' // Header\n' ' mark(kHitachiHdrMark);\n' ' space(kHitachiHdrSpace);\n' ' // Data Section #1\n' ' // e.g. data = 0x80080002FDFF0033CC49B6C8373AC500FF00FF00FF00FF00' 'FFCA358F7000FF00FF01FEC03F807F11EE00FF00FFFF00FF00FF00FF00,' ' nbits = 424\n' ' sendData(kHitachiBitMark, kHitachiOneSpace, kHitachiBitMark,' ' kHitachiZeroSpace, send_data, 424, true);\n' ' send_data >>= 424;\n' ' // Footer\n' ' mark(kHitachiBitMark);\n' ' space(kDefaultMessageGap); // A 100% made up guess of the gap' ' between messages.\n' ' }\n' '}\n' '#endif // SEND_HITACHI\n' '\n' '#if SEND_HITACHI\n' '// Alternative >64bit function to send HITACHI messages\n' '// Where data is:\n' '// uint8_t data[kHitachiStateLength] = {0x80, 0x08, 0x00, 0x02,' ' 0xFD, 0xFF, 0x00, 0x33, 0xCC, 0x49, 0xB6, 0xC8, 0x37, 0x3A, 0xC5,' ' 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0xCA,' ' 0x35, 0x8F, 0x70, 0x00, 0xFF, 0x00, 0xFF, 0x01, 0xFE, 0xC0, 0x3F,' ' 0x80, 0x7F, 0x11, 0xEE, 0x00, 0xFF, 0x00, 0xFF, 0xFF, 0x00, 0xFF,' ' 0x00, 0xFF, 0x00, 0xFF, 0x00};\n' '//\n' '// Args:\n' '// data: An array of bytes containing the IR command.\n' '// It is assumed to be in MSB order for this code.\n' '// nbytes: Nr. of bytes of data in the array.' ' (>=kHitachiStateLength)\n' '// repeat: Nr. of times the message is to be repeated.\n' '//\n' '// Status: ALPHA / Untested.\n' 'void IRsend::sendHitachi(const uint8_t data[], const uint16_t nbytes,' ' const uint16_t repeat) {\n' ' for (uint16_t r = 0; r <= repeat; r++) {\n' ' uint16_t pos = 0;\n' ' // Data Section #1\n' ' // e.g.\n' ' // bits = 424; bytes = 53;\n' ' // *(data + pos) = {0x80, 0x08, 0x00, 0x02, 0xFD, 0xFF, 0x00,' ' 0x33, 0xCC, 0x49, 0xB6, 0xC8, 0x37, 0x3A, 0xC5, 0x00, 0xFF, 0x00,' ' 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0xCA, 0x35, 0x8F, 0x70,' ' 0x00, 0xFF, 0x00, 0xFF, 0x01, 0xFE, 0xC0, 0x3F, 0x80, 0x7F, 0x11,' ' 0xEE, 0x00, 0xFF, 0x00, 0xFF, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00,' ' 0xFF, 0x00};\n' ' sendGeneric(kHitachiHdrMark, kHitachiHdrSpace,\n' ' kHitachiBitMark, kHitachiOneSpace,\n' ' kHitachiBitMark, kHitachiZeroSpace,\n' ' kHitachiBitMark, kHitachiSpaceGap,\n' ' data + pos, 53, // Bytes\n' ' kHitachiFreq, true, kNoRepeat, kDutyDefault);\n' ' pos += 53; // Adjust by how many bytes of data we sent\n' ' }\n' '}\n' '#endif // SEND_HITACHI\n' '\n' "// DANGER: More than 64 bits detected. A uint64_t for 'data' won't" ' work!\n' '#if DECODE_HITACHI\n' '// Function should be safe up to 64 bits.\n' 'bool IRrecv::decodeHitachi(decode_results *results,' ' const uint16_t nbits, const bool strict) {\n' ' if (results->rawlen < 2 * nbits + kHitachiOverhead)\n' ' return false; // Too short a message to match.\n' ' if (strict && nbits != kHitachiBits)\n' ' return false;\n' '\n' ' uint16_t offset = kStartOffset;\n' ' uint64_t data = 0;\n' ' match_result_t data_result;\n' '\n' ' // Leader\n' ' if (!matchMark(results->rawbuf[offset++], kHitachiLdrMark))\n' ' return false;\n' '\n' ' // Gap\n' ' if (!matchSpace(results->rawbuf[offset++], kHitachiSpaceGap))\n' ' return false;\n' '\n' ' // Header\n' ' if (!matchMark(results->rawbuf[offset++], kHitachiHdrMark))\n' ' return false;\n' ' if (!matchSpace(results->rawbuf[offset++], kHitachiHdrSpace))\n' ' return false;\n' '\n' ' // Data Section #1\n' ' // e.g. data_result.data = 0x80080002FDFF0033CC49B6C8373AC500FF00FF' '00FF00FF00FFCA358F7000FF00FF01FEC03F807F11EE00FF00FFFF00FF00FF00FF00,' ' nbits = 424\n' ' data_result = matchData(&(results->rawbuf[offset]), 424,\n' ' kHitachiBitMark, kHitachiOneSpace,\n' ' kHitachiBitMark, kHitachiZeroSpace);\n' ' offset += data_result.used;\n' ' if (data_result.success == false) return false; // Fail\n' ' data <<= 424; // Make room for the new bits of data.\n' ' data |= data_result.data;\n' '\n' ' // Footer\n' ' if (!matchMark(results->rawbuf[offset++], kHitachiBitMark))\n' ' return false;\n' '\n' ' // Success\n' ' results->decode_type = decode_type_t::HITACHI;\n' ' results->bits = nbits;\n' ' results->value = data;\n' ' results->command = 0;\n' ' results->address = 0;\n' ' return true;\n' '}\n' '#endif // DECODE_HITACHI\n' '\n' '// Note: This should be 64+ bit safe.\n' '#if DECODE_HITACHI\n' '// Function should be safe over 64 bits.\n' 'bool IRrecv::decodeHitachi(decode_results *results,' ' const uint16_t nbits, const bool strict) {\n' ' if (results->rawlen < 2 * nbits + kHitachiOverhead)\n' ' return false; // Too short a message to match.\n' ' if (strict && nbits != kHitachiBits)\n' ' return false;\n' '\n' ' uint16_t offset = kStartOffset;\n' ' uint16_t pos = 0;\n' ' uint16_t used = 0;\n' '\n' ' // Data Section #1\n' ' // e.g.\n' ' // bits = 424; bytes = 53;\n' ' // *(results->state + pos) = {0x80, 0x08, 0x00, 0x02, 0xFD, 0xFF,' ' 0x00, 0x33, 0xCC, 0x49, 0xB6, 0xC8, 0x37, 0x3A, 0xC5, 0x00, 0xFF,' ' 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0xCA, 0x35, 0x8F,' ' 0x70, 0x00, 0xFF, 0x00, 0xFF, 0x01, 0xFE, 0xC0, 0x3F, 0x80, 0x7F,' ' 0x11, 0xEE, 0x00, 0xFF, 0x00, 0xFF, 0xFF, 0x00, 0xFF, 0x00, 0xFF,' ' 0x00, 0xFF, 0x00};\n' ' used = matchGeneric(results->rawbuf + offset,' ' results->state + pos,\n' ' results->rawlen - offset, 424,\n' ' kHitachiHdrMark, kHitachiHdrSpace,\n' ' kHitachiBitMark, kHitachiOneSpace,\n' ' kHitachiBitMark, kHitachiZeroSpace,\n' ' kHitachiBitMark, kHitachiSpaceGap, true);\n' ' if (used == 0) return false; // We failed to find any data.\n' ' offset += used; // Adjust for how much of the message we read.\n' ' pos += 53; // Adjust by how many bytes of data we read\n' '\n' ' // Success\n' ' results->decode_type = decode_type_t::HITACHI;\n' ' results->bits = nbits;\n' ' return true;\n' '}\n' '#endif // DECODE_HITACHI\n') def test_unusual_gaps(self): """Tests for unusual Space Gaps in parse_and_report() function.""" # Tests for unusual Gaps. (Issue #482) output = StringIO() input_str = """ uint16_t rawbuf[272] = {3485, 3512, 864, 864, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 2620, 864, 2620, 864, 2620, 864, 864, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 2620, 864, 2620, 864, 2620, 864, 864, 864, 2620, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 2620, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 3485, 3512, 864, 864, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 2620, 864, 2620, 864, 2620, 864, 864, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 2620, 864, 2620, 864, 2620, 864, 864, 864, 2620, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 2620, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 864, 3485, 3512, 864, 13996, 3485, 3512, 864, 864, 864, 864, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 2620, 864, 2620, 864, 864, 864, 864, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 2620, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 864, 864, 864, 864, 864, 864, 2620, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 864, 864, 864, 3485, 3512, 864, 864, 864, 864, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 2620, 864, 2620, 864, 864, 864, 864, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 2620, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 864, 864, 864, 864, 864, 864, 2620, 864, 2620, 864, 864, 864, 2620, 864, 2620, 864, 864, 864, 864, 3485, 3512, 864, 13996};""" analyse.parse_and_report(input_str, 200, True, "FOO", output) self.assertEqual( output.getvalue(), 'Found 272 timing entries.\n' 'Potential Mark Candidates:\n' '[3485, 864]\n' 'Potential Space Candidates:\n' '[13996, 3512, 2620, 864]\n' '\n' 'Guessing encoding type:\n' 'Looks like it uses space encoding. Yay!\n' '\n' 'Guessing key value:\n' 'kFOOHdrMark = 3485\n' 'kFOOHdrSpace = 3512\n' 'kFOOBitMark = 864\n' 'kFOOOneSpace = 2620\n' 'kFOOZeroSpace = 864\n' 'kFOOSpaceGap = 13996\n' '\n' 'Decoding protocol based on analysis so far:\n' '\n' 'kFOOHdrMark+kFOOHdrSpace+01011111010111110100000001000000\n' ' Bits: 32\n' ' Hex: 0x5F5F4040 (MSB first)\n' ' 0x0202FAFA (LSB first)\n' ' Dec: 1600077888 (MSB first)\n' ' 33749754 (LSB first)\n' ' Bin: 0b01011111010111110100000001000000 (MSB first)\n' ' 0b00000010000000101111101011111010 (LSB first)\n' 'kFOOHdrMark+kFOOHdrSpace+01011111010111110100000001000000\n' ' Bits: 32\n' ' Hex: 0x5F5F4040 (MSB first)\n' ' 0x0202FAFA (LSB first)\n' ' Dec: 1600077888 (MSB first)\n' ' 33749754 (LSB first)\n' ' Bin: 0b01011111010111110100000001000000 (MSB first)\n' ' 0b00000010000000101111101011111010 (LSB first)\n' 'kFOOHdrMark+kFOOHdrSpace+GAP(13996)kFOOHdrMark+kFOOHdrSpace+0010111100' '1011110110110001101100\n' ' Bits: 32\n' ' Hex: 0x2F2F6C6C (MSB first)\n' ' 0x3636F4F4 (LSB first)\n' ' Dec: 791637100 (MSB first)\n' ' 909571316 (LSB first)\n' ' Bin: 0b00101111001011110110110001101100 (MSB first)\n' ' 0b00110110001101101111010011110100 (LSB first)\n' 'kFOOHdrMark+kFOOHdrSpace+00101111001011110110110001101100\n' ' Bits: 32\n' ' Hex: 0x2F2F6C6C (MSB first)\n' ' 0x3636F4F4 (LSB first)\n' ' Dec: 791637100 (MSB first)\n' ' 909571316 (LSB first)\n' ' Bin: 0b00101111001011110110110001101100 (MSB first)\n' ' 0b00110110001101101111010011110100 (LSB first)\n' 'kFOOHdrMark+kFOOHdrSpace+GAP(13996)\n' 'Total Nr. of suspected bits: 128\n' '\n' 'Generating a VERY rough code outline:\n' '\n' '// Copyright 2019 David Conran (crankyoldgit)\n' '// Support for FOO protocol\n' '\n' '#include "IRrecv.h"\n' '#include "IRsend.h"\n' '#include "IRutils.h"\n' '\n' "// WARNING: This probably isn't directly usable. It's a guide only.\n" '\n' '// See https://github.com/crankyoldgit/IRremoteESP8266/wiki/' 'Adding-support-for-a-new-IR-protocol\n' '// for details of how to include this in the library.\n' 'const uint16_t kFOOHdrMark = 3485;\n' 'const uint16_t kFOOBitMark = 864;\n' 'const uint16_t kFOOHdrSpace = 3512;\n' 'const uint16_t kFOOOneSpace = 2620;\n' 'const uint16_t kFOOZeroSpace = 864;\n' 'const uint16_t kFOOSpaceGap = 13996;\n' 'const uint16_t kFOOFreq = 38000; // Hz. (Guessing the most common' ' frequency.)\n' 'const uint16_t kFOOBits = 128; // Move to IRremoteESP8266.h\n' 'const uint16_t kFOOStateLength = 16; // Move to IRremoteESP8266.h\n' 'const uint16_t kFOOOverhead = 16;\n' "// DANGER: More than 64 bits detected. A uint64_t for 'data' won't" ' work!\n' '#if SEND_FOO\n' '// Function should be safe up to 64 bits.\n' 'void IRsend::sendFOO(const uint64_t data, const uint16_t nbits,' ' const uint16_t repeat) {\n' ' enableIROut(kFOOFreq);\n' ' for (uint16_t r = 0; r <= repeat; r++) {\n' ' uint64_t send_data = data;\n' ' // Header\n' ' mark(kFOOHdrMark);\n' ' space(kFOOHdrSpace);\n' ' // Data Section #1\n' ' // e.g. data = 0x5F5F4040, nbits = 32\n' ' sendData(kFOOBitMark, kFOOOneSpace, kFOOBitMark, kFOOZeroSpace,' ' send_data, 32, true);\n' ' send_data >>= 32;\n' ' // Header\n' ' mark(kFOOHdrMark);\n' ' space(kFOOHdrSpace);\n' ' // Data Section #2\n' ' // e.g. data = 0x5F5F4040, nbits = 32\n' ' sendData(kFOOBitMark, kFOOOneSpace, kFOOBitMark, kFOOZeroSpace,' ' send_data, 32, true);\n' ' send_data >>= 32;\n' ' // Header\n' ' mark(kFOOHdrMark);\n' ' space(kFOOHdrSpace);\n' ' // Gap\n' ' mark(kFOOBitMark);\n' ' space(kFOOSpaceGap);\n' ' // Header\n' ' mark(kFOOHdrMark);\n' ' space(kFOOHdrSpace);\n' ' // Data Section #3\n' ' // e.g. data = 0x2F2F6C6C, nbits = 32\n' ' sendData(kFOOBitMark, kFOOOneSpace, kFOOBitMark, kFOOZeroSpace,' ' send_data, 32, true);\n' ' send_data >>= 32;\n' ' // Header\n' ' mark(kFOOHdrMark);\n' ' space(kFOOHdrSpace);\n' ' // Data Section #4\n' ' // e.g. data = 0x2F2F6C6C, nbits = 32\n' ' sendData(kFOOBitMark, kFOOOneSpace, kFOOBitMark, kFOOZeroSpace,' ' send_data, 32, true);\n' ' send_data >>= 32;\n' ' // Header\n' ' mark(kFOOHdrMark);\n' ' space(kFOOHdrSpace);\n' ' // Gap\n' ' mark(kFOOBitMark);\n' ' space(kFOOSpaceGap);\n' ' space(kDefaultMessageGap); // A 100% made up guess of the gap' ' between messages.\n' ' }\n' '}\n' '#endif // SEND_FOO\n' '\n' '#if SEND_FOO\n' '// Alternative >64bit function to send FOO messages\n' '// Where data is:\n' '// uint8_t data[kFOOStateLength] = {0x5F, 0x5F, 0x40, 0x40, 0x5F,' ' 0x5F, 0x40, 0x40, 0x2F, 0x2F, 0x6C, 0x6C, 0x2F, 0x2F, 0x6C, 0x6C};\n' '//\n' '// Args:\n' '// data: An array of bytes containing the IR command.\n' '// It is assumed to be in MSB order for this code.\n' '// nbytes: Nr. of bytes of data in the array. (>=kFOOStateLength)\n' '// repeat: Nr. of times the message is to be repeated.\n' '//\n' '// Status: ALPHA / Untested.\n' 'void IRsend::sendFOO(const uint8_t data[], const uint16_t nbytes,' ' const uint16_t repeat) {\n' ' for (uint16_t r = 0; r <= repeat; r++) {\n' ' uint16_t pos = 0;\n' ' // Data Section #1\n' ' // e.g.\n' ' // bits = 32; bytes = 4;\n' ' // *(data + pos) = {0x5F, 0x5F, 0x40, 0x40};\n' ' sendGeneric(kFOOHdrMark, kFOOHdrSpace,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace,\n' ' kFOOHdrMark, kFOOHdrSpace,\n' ' data + pos, 4, // Bytes\n' ' kFOOFreq, true, kNoRepeat, kDutyDefault);\n' ' pos += 4; // Adjust by how many bytes of data we sent\n' ' // Data Section #2\n' ' // e.g.\n' ' // bits = 32; bytes = 4;\n' ' // *(data + pos) = {0x5F, 0x5F, 0x40, 0x40};\n' ' sendGeneric(kFOOHdrMark, kFOOHdrSpace,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace,\n' ' kFOOHdrMark, kFOOHdrSpace,\n' ' data + pos, 4, // Bytes\n' ' kFOOFreq, true, kNoRepeat, kDutyDefault);\n' ' pos += 4; // Adjust by how many bytes of data we sent\n' ' // Data Section #3\n' ' // e.g.\n' ' // bits = 32; bytes = 4;\n' ' // *(data + pos) = {0x2F, 0x2F, 0x6C, 0x6C};\n' ' sendGeneric(kFOOHdrMark, kFOOHdrSpace,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace,\n' ' kFOOHdrMark, kFOOHdrSpace,\n' ' data + pos, 4, // Bytes\n' ' kFOOFreq, true, kNoRepeat, kDutyDefault);\n' ' pos += 4; // Adjust by how many bytes of data we sent\n' ' // Data Section #4\n' ' // e.g.\n' ' // bits = 32; bytes = 4;\n' ' // *(data + pos) = {0x2F, 0x2F, 0x6C, 0x6C};\n' ' sendGeneric(kFOOHdrMark, kFOOHdrSpace,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace,\n' ' kFOOHdrMark, kFOOHdrSpace,\n' ' data + pos, 4, // Bytes\n' ' kFOOFreq, true, kNoRepeat, kDutyDefault);\n' ' pos += 4; // Adjust by how many bytes of data we sent\n' ' }\n' '}\n' '#endif // SEND_FOO\n' '\n' "// DANGER: More than 64 bits detected. A uint64_t for 'data' won't " 'work!\n' '#if DECODE_FOO\n' '// Function should be safe up to 64 bits.\n' 'bool IRrecv::decodeFOO(decode_results *results, const uint16_t nbits,' ' const bool strict) {\n' ' if (results->rawlen < 2 * nbits + kFOOOverhead)\n' ' return false; // Too short a message to match.\n' ' if (strict && nbits != kFOOBits)\n' ' return false;\n' '\n' ' uint16_t offset = kStartOffset;\n' ' uint64_t data = 0;\n' ' match_result_t data_result;\n' '\n' ' // Header\n' ' if (!matchMark(results->rawbuf[offset++], kFOOHdrMark))\n' ' return false;\n' ' if (!matchSpace(results->rawbuf[offset++], kFOOHdrSpace))\n' ' return false;\n' '\n' ' // Data Section #1\n' ' // e.g. data_result.data = 0x5F5F4040, nbits = 32\n' ' data_result = matchData(&(results->rawbuf[offset]), 32,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace);\n' ' offset += data_result.used;\n' ' if (data_result.success == false) return false; // Fail\n' ' data <<= 32; // Make room for the new bits of data.\n' ' data |= data_result.data;\n' '\n' ' // Header\n' ' if (!matchMark(results->rawbuf[offset++], kFOOHdrMark))\n' ' return false;\n' ' if (!matchSpace(results->rawbuf[offset++], kFOOHdrSpace))\n' ' return false;\n' '\n' ' // Data Section #2\n' ' // e.g. data_result.data = 0x5F5F4040, nbits = 32\n' ' data_result = matchData(&(results->rawbuf[offset]), 32,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace);\n' ' offset += data_result.used;\n' ' if (data_result.success == false) return false; // Fail\n' ' data <<= 32; // Make room for the new bits of data.\n' ' data |= data_result.data;\n' '\n' ' // Header\n' ' if (!matchMark(results->rawbuf[offset++], kFOOHdrMark))\n' ' return false;\n' ' if (!matchSpace(results->rawbuf[offset++], kFOOHdrSpace))\n' ' return false;\n' '\n' ' // Gap\n' ' if (!matchMark(results->rawbuf[offset++], kFOOBitMark))\n' ' return false;\n' ' if (!matchSpace(results->rawbuf[offset++], kFOOSpaceGap))\n' ' return false;\n' '\n' ' // Header\n' ' if (!matchMark(results->rawbuf[offset++], kFOOHdrMark))\n' ' return false;\n' ' if (!matchSpace(results->rawbuf[offset++], kFOOHdrSpace))\n' ' return false;\n' '\n' ' // Data Section #3\n' ' // e.g. data_result.data = 0x2F2F6C6C, nbits = 32\n' ' data_result = matchData(&(results->rawbuf[offset]), 32,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace);\n' ' offset += data_result.used;\n' ' if (data_result.success == false) return false; // Fail\n' ' data <<= 32; // Make room for the new bits of data.\n' ' data |= data_result.data;\n' '\n' ' // Header\n' ' if (!matchMark(results->rawbuf[offset++], kFOOHdrMark))\n' ' return false;\n' ' if (!matchSpace(results->rawbuf[offset++], kFOOHdrSpace))\n' ' return false;\n' '\n' ' // Data Section #4\n' ' // e.g. data_result.data = 0x2F2F6C6C, nbits = 32\n' ' data_result = matchData(&(results->rawbuf[offset]), 32,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace);\n' ' offset += data_result.used;\n' ' if (data_result.success == false) return false; // Fail\n' ' data <<= 32; // Make room for the new bits of data.\n' ' data |= data_result.data;\n' '\n' ' // Header\n' ' if (!matchMark(results->rawbuf[offset++], kFOOHdrMark))\n' ' return false;\n' ' if (!matchSpace(results->rawbuf[offset++], kFOOHdrSpace))\n' ' return false;\n' '\n' ' // Gap\n' ' if (!matchMark(results->rawbuf[offset++], kFOOBitMark))\n' ' return false;\n' ' if (!matchSpace(results->rawbuf[offset++], kFOOSpaceGap))\n' ' return false;\n' '\n' ' // Success\n' ' results->decode_type = decode_type_t::FOO;\n' ' results->bits = nbits;\n' ' results->value = data;\n' ' results->command = 0;\n' ' results->address = 0;\n' ' return true;\n' '}\n' '#endif // DECODE_FOO\n' '\n' '// Note: This should be 64+ bit safe.\n' '#if DECODE_FOO\n' '// Function should be safe over 64 bits.\n' 'bool IRrecv::decodeFOO(decode_results *results, const uint16_t nbits,' ' const bool strict) {\n' ' if (results->rawlen < 2 * nbits + kFOOOverhead)\n' ' return false; // Too short a message to match.\n' ' if (strict && nbits != kFOOBits)\n' ' return false;\n' '\n' ' uint16_t offset = kStartOffset;\n' ' uint16_t pos = 0;\n' ' uint16_t used = 0;\n' '\n' ' // Data Section #1\n' ' // e.g.\n' ' // bits = 32; bytes = 4;\n' ' // *(results->state + pos) = {0x5F, 0x5F, 0x40, 0x40};\n' ' used = matchGeneric(results->rawbuf + offset, results->state + pos,' '\n' ' results->rawlen - offset, 32,\n' ' kFOOHdrMark, kFOOHdrSpace,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace,\n' ' kFOOHdrMark, kFOOHdrSpace, true);\n' ' if (used == 0) return false; // We failed to find any data.\n' ' offset += used; // Adjust for how much of the message we read.\n' ' pos += 4; // Adjust by how many bytes of data we read\n' '\n' ' // Data Section #2\n' ' // e.g.\n' ' // bits = 32; bytes = 4;\n' ' // *(results->state + pos) = {0x5F, 0x5F, 0x40, 0x40};\n' ' used = matchGeneric(results->rawbuf + offset, results->state + pos,' '\n' ' results->rawlen - offset, 32,\n' ' kFOOHdrMark, kFOOHdrSpace,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace,\n' ' kFOOHdrMark, kFOOHdrSpace, true);\n' ' if (used == 0) return false; // We failed to find any data.\n' ' offset += used; // Adjust for how much of the message we read.\n' ' pos += 4; // Adjust by how many bytes of data we read\n' '\n' ' // Data Section #3\n' ' // e.g.\n' ' // bits = 32; bytes = 4;\n' ' // *(results->state + pos) = {0x2F, 0x2F, 0x6C, 0x6C};\n' ' used = matchGeneric(results->rawbuf + offset, results->state + pos,' '\n' ' results->rawlen - offset, 32,\n' ' kFOOHdrMark, kFOOHdrSpace,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace,\n' ' kFOOHdrMark, kFOOHdrSpace, true);\n' ' if (used == 0) return false; // We failed to find any data.\n' ' offset += used; // Adjust for how much of the message we read.\n' ' pos += 4; // Adjust by how many bytes of data we read\n' '\n' ' // Data Section #4\n' ' // e.g.\n' ' // bits = 32; bytes = 4;\n' ' // *(results->state + pos) = {0x2F, 0x2F, 0x6C, 0x6C};\n' ' used = matchGeneric(results->rawbuf + offset, results->state + pos,' '\n' ' results->rawlen - offset, 32,\n' ' kFOOHdrMark, kFOOHdrSpace,\n' ' kFOOBitMark, kFOOOneSpace,\n' ' kFOOBitMark, kFOOZeroSpace,\n' ' kFOOHdrMark, kFOOHdrSpace, true);\n' ' if (used == 0) return false; // We failed to find any data.\n' ' offset += used; // Adjust for how much of the message we read.\n' ' pos += 4; // Adjust by how many bytes of data we read\n' '\n' ' // Success\n' ' results->decode_type = decode_type_t::FOO;\n' ' results->bits = nbits;\n' ' return true;\n' '}\n' '#endif // DECODE_FOO\n') def test_no_headers(self): """Tests for no space or mark headers in parse_and_report() function.""" # Tests for mark or space headers. (Issue #1014) output = StringIO() input_str = """ uint16_t rawData[257] = {472, 1016, 490, 536, 446, 1038, 464, 544, 490, 516, 492, 1008, 418, 592, 462, 1042, 476, 532, 444, 1062, 474, 532, 470, 1014, 492, 1010, 446, 562, 460, 1046, 474, 532, 472, 534, 416, 590, 458, 548, 486, 520, 490, 516, 490, 534, 470, 534, 470, 534, 470, 536, 416, 590, 460, 546, 488, 518, 490, 536, 468, 536, 470, 534, 470, 536, 442, 564, 414, 1092, 470, 536, 468, 536, 416, 590, 414, 592, 486, 520, 490, 536, 470, 534, 470, 534, 468, 536, 416, 590, 432, 574, 486, 520, 490, 536, 470, 534, 468, 536, 468, 536, 468, 538, 420, 590, 454, 546, 488, 518, 488, 536, 468, 536, 468, 536, 468, 536, 440, 566, 414, 592, 462, 546, 490, 536, 468, 536, 468, 538, 468, 536, 468, 538, 414, 592, 460, 546, 488, 518, 490, 536, 468, 536, 470, 536, 468, 536, 442, 564, 414, 592, 462, 546, 490, 518, 488, 536, 470, 534, 470, 536, 470, 536, 416, 590, 460, 548, 488, 518, 490, 536, 470, 534, 470, 534, 470, 536, 468, 536, 414, 592, 462, 546, 490, 518, 488, 534, 470, 536, 468, 536, 468, 536, 414, 590, 462, 546, 488, 518, 466, 560, 444, 560, 446, 560, 446, 560, 444, 562, 416, 592, 462, 546, 464, 542, 464, 560, 444, 560, 446, 560, 446, 560, 416, 590, 460, 546, 464, 544, 464, 562, 444, 560, 446, 560, 446, 560, 444, 560, 416, 592, 462, 1042, 446, 560, 444, 560, 416, 592, 462, 544, 488, 520, 466, 558, 446, 560, 446};""" analyse.parse_and_report(input_str, 200, True, "", output) self.assertEqual( output.getvalue(), 'Found 257 timing entries.\n' 'Potential Mark Candidates:\n' '[492]\n' 'Potential Space Candidates:\n' '[1092, 592]\n' '\n' 'Guessing encoding type:\n' 'Looks like it uses space encoding. Yay!\n' '\n' 'Guessing key value:\n' 'kHdrMark = 0\n' 'kHdrSpace = 0\n' 'kBitMark = 460\n' 'kOneSpace = 1037\n' 'kZeroSpace = 547\n' '\n' 'Decoding protocol based on analysis so far:\n' '\n' 'kBitMark(UNEXPECTED)10100101010110100000000000000000010000000000000000' '0000000000000000000000000000000000000000000000000000000000000000000000' '10000000\n' ' Bits: 128\n' ' Hex: 0xA55A0000400000000000000000000080 (MSB first)\n' ' 0x01000000000000000000000200005AA5 (LSB first)\n' ' Dec: 219789926041586294144261994014272651392 (MSB first)\n' ' 1329227995784915872903807068870302373 (LSB first)\n' ' Bin: 0b101001010101101000000000000000000100000000000000000000000000' '00000000000000000000000000000000000000000000000000000000000010000000' ' (MSB first)\n' ' 0b000000010000000000000000000000000000000000000000000000000000' '00000000000000000000000000000000001000000000000000000101101010100101' ' (LSB first)\n' '\n' 'Total Nr. of suspected bits: 128\n' '\n' 'Generating a VERY rough code outline:\n' '\n' '// Copyright 2019 David Conran (crankyoldgit)\n' '// Support for TBD protocol\n' '\n' '#include "IRrecv.h"\n' '#include "IRsend.h"\n' '#include "IRutils.h"\n' '\n' "// WARNING: This probably isn't directly usable. It's a guide only.\n" '\n' '// See https://github.com/crankyoldgit/IRremoteESP8266/wiki/' 'Adding-support-for-a-new-IR-protocol\n' '// for details of how to include this in the library.\n' 'const uint16_t kHdrMark = 0;\n' 'const uint16_t kBitMark = 460;\n' 'const uint16_t kHdrSpace = 0;\n' 'const uint16_t kOneSpace = 1037;\n' 'const uint16_t kZeroSpace = 547;\n' 'const uint16_t kFreq = 38000; // Hz. (Guessing the most common' ' frequency.)\n' 'const uint16_t kBits = 128; // Move to IRremoteESP8266.h\n' 'const uint16_t kStateLength = 16; // Move to IRremoteESP8266.h\n' 'const uint16_t kOverhead = 1;\n' "// DANGER: More than 64 bits detected. A uint64_t for 'data' won't" ' work!\n' '#if SEND_TBD\n' '// Function should be safe up to 64 bits.\n' 'void IRsend::sendTBD(const uint64_t data, const uint16_t nbits, const' ' uint16_t repeat) {\n' ' enableIROut(kFreq);\n' ' for (uint16_t r = 0; r <= repeat; r++) {\n' ' uint64_t send_data = data;\n' ' // Data Section #1\n' ' // e.g. data = 0xA55A0000400000000000000000000080, nbits = 128\n' ' sendData(kBitMark, kOneSpace, kBitMark, kZeroSpace, send_data,' ' 128, true);\n' ' send_data >>= 128;\n' ' // Footer\n' ' mark(kBitMark);\n' ' space(kDefaultMessageGap); // A 100% made up guess of the gap' ' between messages.\n' ' }\n' '}\n' '#endif // SEND_TBD\n' '\n' '#if SEND_TBD\n' '// Alternative >64bit function to send TBD messages\n' '// Where data is:\n' '// uint8_t data[kStateLength] = {0xA5, 0x5A, 0x00, 0x00, 0x40, 0x00,' ' 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x80};\n' '//\n' '// Args:\n' '// data: An array of bytes containing the IR command.\n' '// It is assumed to be in MSB order for this code.\n' '// nbytes: Nr. of bytes of data in the array. (>=kStateLength)\n' '// repeat: Nr. of times the message is to be repeated.\n' '//\n' '// Status: ALPHA / Untested.\n' 'void IRsend::sendTBD(const uint8_t data[], const uint16_t nbytes,' ' const uint16_t repeat) {\n' ' for (uint16_t r = 0; r <= repeat; r++) {\n' ' uint16_t pos = 0;\n' ' // Data Section #1\n' ' // e.g.\n' ' // bits = 128; bytes = 16;\n' ' // *(data + pos) = {0xA5, 0x5A, 0x00, 0x00, 0x40, 0x00, 0x00,' ' 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x80};\n' ' sendGeneric(0, 0,\n' ' kBitMark, kOneSpace,\n' ' kBitMark, kZeroSpace,\n' ' kBitMark, kDefaultMessageGap,\n' ' data + pos, 16, // Bytes\n' ' kFreq, true, kNoRepeat, kDutyDefault);\n' ' pos += 16; // Adjust by how many bytes of data we sent\n' ' }\n' '}\n' '#endif // SEND_TBD\n' '\n' "// DANGER: More than 64 bits detected. A uint64_t for 'data' won't" ' work!\n' '#if DECODE_TBD\n' '// Function should be safe up to 64 bits.\n' 'bool IRrecv::decodeTBD(decode_results *results, const uint16_t nbits,' ' const bool strict) {\n' ' if (results->rawlen < 2 * nbits + kOverhead)\n' ' return false; // Too short a message to match.\n' ' if (strict && nbits != kBits)\n' ' return false;\n' '\n' ' uint16_t offset = kStartOffset;\n' ' uint64_t data = 0;\n' ' match_result_t data_result;\n' '\n' ' // Data Section #1\n' ' // e.g. data_result.data = 0xA55A0000400000000000000000000080, nbits' ' = 128\n' ' data_result = matchData(&(results->rawbuf[offset]), 128,\n' ' kBitMark, kOneSpace,\n' ' kBitMark, kZeroSpace);\n' ' offset += data_result.used;\n' ' if (data_result.success == false) return false; // Fail\n' ' data <<= 128; // Make room for the new bits of data.\n' ' data |= data_result.data;\n' '\n' ' // Footer\n' ' if (!matchMark(results->rawbuf[offset++], kBitMark))\n' ' return false;\n' '\n' ' // Success\n' ' results->decode_type = decode_type_t::TBD;\n' ' results->bits = nbits;\n' ' results->value = data;\n' ' results->command = 0;\n' ' results->address = 0;\n' ' return true;\n' '}\n' '#endif // DECODE_TBD\n' '\n' '// Note: This should be 64+ bit safe.\n' '#if DECODE_TBD\n' '// Function should be safe over 64 bits.\n' 'bool IRrecv::decodeTBD(decode_results *results, const uint16_t nbits,' ' const bool strict) {\n' ' if (results->rawlen < 2 * nbits + kOverhead)\n' ' return false; // Too short a message to match.\n' ' if (strict && nbits != kBits)\n' ' return false;\n' '\n' ' uint16_t offset = kStartOffset;\n' ' uint16_t pos = 0;\n' ' uint16_t used = 0;\n' '\n' ' // Data Section #1\n' ' // e.g.\n' ' // bits = 128; bytes = 16;\n' ' // *(results->state + pos) = {0xA5, 0x5A, 0x00, 0x00, 0x40, 0x00,' ' 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x80};\n' ' used = matchGeneric(results->rawbuf + offset, results->state + pos,' '\n' ' results->rawlen - offset, 128,\n' ' 0, 0,\n' ' kBitMark, kOneSpace,\n' ' kBitMark, kZeroSpace,\n' ' kBitMark, kDefaultMessageGap, true);\n' ' if (used == 0) return false; // We failed to find any data.\n' ' offset += used; // Adjust for how much of the message we read.\n' ' pos += 16; // Adjust by how many bytes of data we read\n' '\n' ' // Success\n' ' results->decode_type = decode_type_t::TBD;\n' ' results->bits = nbits;\n' ' return true;\n' '}\n' '#endif // DECODE_TBD\n') if __name__ == '__main__': unittest.main(verbosity=2)