#include "pocketpy/compiler/lexer.hpp" #include "pocketpy/common/gil.hpp" #include "pocketpy/common/version.h" #include "pocketpy/common/str.h" #include namespace pkpy { // clang-format off static const uint32_t kLoRangeA[] = {170,186,443,448,660,1488,1519,1568,1601,1646,1649,1749,1774,1786,1791,1808,1810,1869,1969,1994,2048,2112,2144,2208,2230,2308,2365,2384,2392,2418,2437,2447,2451,2474,2482,2486,2493,2510,2524,2527,2544,2556,2565,2575,2579,2602,2610,2613,2616,2649,2654,2674,2693,2703,2707,2730,2738,2741,2749,2768,2784,2809,2821,2831,2835,2858,2866,2869,2877,2908,2911,2929,2947,2949,2958,2962,2969,2972,2974,2979,2984,2990,3024,3077,3086,3090,3114,3133,3160,3168,3200,3205,3214,3218,3242,3253,3261,3294,3296,3313,3333,3342,3346,3389,3406,3412,3423,3450,3461,3482,3507,3517,3520,3585,3634,3648,3713,3716,3718,3724,3749,3751,3762,3773,3776,3804,3840,3904,3913,3976,4096,4159,4176,4186,4193,4197,4206,4213,4238,4352,4682,4688,4696,4698,4704,4746,4752,4786,4792,4800,4802,4808,4824,4882,4888,4992,5121,5743,5761,5792,5873,5888,5902,5920,5952,5984,5998,6016,6108,6176,6212,6272,6279,6314,6320,6400,6480,6512,6528,6576,6656,6688,6917,6981,7043,7086,7098,7168,7245,7258,7401,7406,7413,7418,8501,11568,11648,11680,11688,11696,11704,11712,11720,11728,11736,12294,12348,12353,12447,12449,12543,12549,12593,12704,12784,13312,19968,40960,40982,42192,42240,42512,42538,42606,42656,42895,42999,43003,43011,43015,43020,43072,43138,43250,43259,43261,43274,43312,43360,43396,43488,43495,43514,43520,43584,43588,43616,43633,43642,43646,43697,43701,43705,43712,43714,43739,43744,43762,43777,43785,43793,43808,43816,43968,44032,55216,55243,63744,64112,64285,64287,64298,64312,64318,64320,64323,64326,64467,64848,64914,65008,65136,65142,65382,65393,65440,65474,65482,65490,65498,65536,65549,65576,65596,65599,65616,65664,66176,66208,66304,66349,66370,66384,66432,66464,66504,66640,66816,66864,67072,67392,67424,67584,67592,67594,67639,67644,67647,67680,67712,67808,67828,67840,67872,67968,68030,68096,68112,68117,68121,68192,68224,68288,68297,68352,68416,68448,68480,68608,68864,69376,69415,69424,69600,69635,69763,69840,69891,69956,69968,70006,70019,70081,70106,70108,70144,70163,70272,70280,70282,70287,70303,70320,70405,70415,70419,70442,70450,70453,70461,70480,70493,70656,70727,70751,70784,70852,70855,71040,71128,71168,71236,71296,71352,71424,71680,71935,72096,72106,72161,72163,72192,72203,72250,72272,72284,72349,72384,72704,72714,72768,72818,72960,72968,72971,73030,73056,73063,73066,73112,73440,73728,74880,77824,82944,92160,92736,92880,92928,93027,93053,93952,94032,94208,100352,110592,110928,110948,110960,113664,113776,113792,113808,123136,123214,123584,124928,126464,126469,126497,126500,126503,126505,126516,126521,126523,126530,126535,126537,126539,126541,126545,126548,126551,126553,126555,126557,126559,126561,126564,126567,126572,126580,126585,126590,126592,126603,126625,126629,126635,131072,173824,177984,178208,183984,194560}; static const uint32_t kLoRangeB[] = {170,186,443,451,660,1514,1522,1599,1610,1647,1747,1749,1775,1788,1791,1808,1839,1957,1969,2026,2069,2136,2154,2228,2237,2361,2365,2384,2401,2432,2444,2448,2472,2480,2482,2489,2493,2510,2525,2529,2545,2556,2570,2576,2600,2608,2611,2614,2617,2652,2654,2676,2701,2705,2728,2736,2739,2745,2749,2768,2785,2809,2828,2832,2856,2864,2867,2873,2877,2909,2913,2929,2947,2954,2960,2965,2970,2972,2975,2980,2986,3001,3024,3084,3088,3112,3129,3133,3162,3169,3200,3212,3216,3240,3251,3257,3261,3294,3297,3314,3340,3344,3386,3389,3406,3414,3425,3455,3478,3505,3515,3517,3526,3632,3635,3653,3714,3716,3722,3747,3749,3760,3763,3773,3780,3807,3840,3911,3948,3980,4138,4159,4181,4189,4193,4198,4208,4225,4238,4680,4685,4694,4696,4701,4744,4749,4784,4789,4798,4800,4805,4822,4880,4885,4954,5007,5740,5759,5786,5866,5880,5900,5905,5937,5969,5996,6000,6067,6108,6210,6264,6276,6312,6314,6389,6430,6509,6516,6571,6601,6678,6740,6963,6987,7072,7087,7141,7203,7247,7287,7404,7411,7414,7418,8504,11623,11670,11686,11694,11702,11710,11718,11726,11734,11742,12294,12348,12438,12447,12538,12543,12591,12686,12730,12799,19893,40943,40980,42124,42231,42507,42527,42539,42606,42725,42895,42999,43009,43013,43018,43042,43123,43187,43255,43259,43262,43301,43334,43388,43442,43492,43503,43518,43560,43586,43595,43631,43638,43642,43695,43697,43702,43709,43712,43714,43740,43754,43762,43782,43790,43798,43814,43822,44002,55203,55238,55291,64109,64217,64285,64296,64310,64316,64318,64321,64324,64433,64829,64911,64967,65019,65140,65276,65391,65437,65470,65479,65487,65495,65500,65547,65574,65594,65597,65613,65629,65786,66204,66256,66335,66368,66377,66421,66461,66499,66511,66717,66855,66915,67382,67413,67431,67589,67592,67637,67640,67644,67669,67702,67742,67826,67829,67861,67897,68023,68031,68096,68115,68119,68149,68220,68252,68295,68324,68405,68437,68466,68497,68680,68899,69404,69415,69445,69622,69687,69807,69864,69926,69956,70002,70006,70066,70084,70106,70108,70161,70187,70278,70280,70285,70301,70312,70366,70412,70416,70440,70448,70451,70457,70461,70480,70497,70708,70730,70751,70831,70853,70855,71086,71131,71215,71236,71338,71352,71450,71723,71935,72103,72144,72161,72163,72192,72242,72250,72272,72329,72349,72440,72712,72750,72768,72847,72966,72969,73008,73030,73061,73064,73097,73112,73458,74649,75075,78894,83526,92728,92766,92909,92975,93047,93071,94026,94032,100343,101106,110878,110930,110951,111355,113770,113788,113800,113817,123180,123214,123627,125124,126467,126495,126498,126500,126503,126514,126519,126521,126523,126530,126535,126537,126539,126543,126546,126548,126551,126553,126555,126557,126559,126562,126564,126570,126578,126583,126588,126590,126601,126619,126627,126633,126651,173782,177972,178205,183969,191456,195101}; // clang-format on static bool is_possible_number_char(char c) noexcept{ switch(c) { // clang-format off case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': case '.': case 'L': case 'x': case 'o': case 'j': return true; default: return false; // clang-format on } } static bool is_unicode_Lo_char(uint32_t c) noexcept{ // open a hole for carrot if(c == U'🥕') return true; auto index = std::lower_bound(kLoRangeA, kLoRangeA + 476, c) - kLoRangeA; if(c == kLoRangeA[index]) return true; index -= 1; if(index < 0) return false; return c >= kLoRangeA[index] && c <= kLoRangeB[index]; } bool Lexer::match_n_chars(int n, char c0) noexcept{ const char* c = curr_char; for(int i = 0; i < n; i++) { if(*c == '\0') return false; if(*c != c0) return false; c++; } for(int i = 0; i < n; i++) eatchar_include_newline(); return true; } bool Lexer::match_string(const char* s) noexcept{ int s_len = strlen(s); bool ok = strncmp(curr_char, s, s_len) == 0; if(ok) for(int i = 0; i < s_len; i++) eatchar_include_newline(); return ok; } int Lexer::eat_spaces() noexcept{ int count = 0; while(true) { switch(peekchar()) { case ' ': count += 1; break; case '\t': count += 4; break; default: return count; } eatchar(); } } bool Lexer::eat_indentation() noexcept{ if(brackets_level > 0) return true; int spaces = eat_spaces(); if(peekchar() == '#') skip_line_comment(); if(peekchar() == '\0' || peekchar() == '\n') return true; // https://docs.python.org/3/reference/lexical_analysis.html#indentation if(spaces > indents.back()) { indents.push_back(spaces); nexts.push_back(Token{TK("@indent"), token_start, 0, current_line, brackets_level, {}}); } else if(spaces < indents.back()) { while(spaces < indents.back()) { indents.pop_back(); nexts.push_back(Token{TK("@dedent"), token_start, 0, current_line, brackets_level, {}}); } if(spaces != indents.back()) { return false; } } return true; } char Lexer::eatchar() noexcept{ char c = peekchar(); assert(c != '\n'); // eatchar() cannot consume a newline curr_char++; return c; } char Lexer::eatchar_include_newline() noexcept{ char c = peekchar(); curr_char++; if(c == '\n') { current_line++; c11_vector__push(const char*, &src->line_starts, curr_char); } return c; } Error* Lexer::eat_name() noexcept{ curr_char--; while(true) { unsigned char c = peekchar(); int u8bytes = pkpy_utils__u8_header(c, true); if(u8bytes == 0) return SyntaxError("invalid char: %c", c); if(u8bytes == 1) { if(isalpha(c) || c == '_' || isdigit(c)) { curr_char++; continue; } else { break; } } // handle multibyte char Str u8str(curr_char, u8bytes); if(u8str.size != u8bytes) return SyntaxError("invalid utf8 sequence: %s", u8str.c_str()); uint32_t value = 0; for(int k = 0; k < u8bytes; k++) { uint8_t b = u8str[k]; if(k == 0) { if(u8bytes == 2) value = (b & 0b00011111) << 6; else if(u8bytes == 3) value = (b & 0b00001111) << 12; else if(u8bytes == 4) value = (b & 0b00000111) << 18; } else { value |= (b & 0b00111111) << (6 * (u8bytes - k - 1)); } } if(is_unicode_Lo_char(value)) curr_char += u8bytes; else break; } int length = (int)(curr_char - token_start); if(length == 0) return SyntaxError("@id contains invalid char"); std::string_view name(token_start, length); if(src->mode == JSON_MODE) { if(name == "true") { add_token(TK("True")); } else if(name == "false") { add_token(TK("False")); } else if(name == "null") { add_token(TK("None")); } else { return SyntaxError("invalid JSON token"); } return NULL; } const auto KW_BEGIN = kTokens + TK("False"); const auto KW_END = kTokens + kTokenCount; auto it = std::lower_bound(KW_BEGIN, KW_END, name); if(it != KW_END && *it == name) { add_token(it - kTokens); } else { add_token(TK("@id")); } return NULL; } void Lexer::skip_line_comment() noexcept{ char c; while((c = peekchar()) != '\0') { if(c == '\n') return; eatchar(); } } bool Lexer::matchchar(char c) noexcept{ if(peekchar() != c) return false; eatchar_include_newline(); return true; } void Lexer::add_token(TokenIndex type, TokenValue value) noexcept{ switch(type) { case TK("{"): case TK("["): case TK("("): brackets_level++; break; case TK(")"): case TK("]"): case TK("}"): brackets_level--; break; } auto token = Token{type, token_start, (int)(curr_char - token_start), current_line - ((type == TK("@eol")) ? 1 : 0), brackets_level, value}; // handle "not in", "is not", "yield from" if(!nexts.empty()) { auto& back = nexts.back(); if(back.type == TK("not") && type == TK("in")) { back.type = TK("not in"); return; } if(back.type == TK("is") && type == TK("not")) { back.type = TK("is not"); return; } if(back.type == TK("yield") && type == TK("from")) { back.type = TK("yield from"); return; } nexts.push_back(token); } } void Lexer::add_token_2(char c, TokenIndex one, TokenIndex two) noexcept{ if(matchchar(c)) add_token(two); else add_token(one); } Error* Lexer::eat_string_until(char quote, bool raw, Str* out) noexcept{ bool quote3 = match_n_chars(2, quote); small_vector_2 buff; while(true) { char c = eatchar_include_newline(); if(c == quote) { if(quote3 && !match_n_chars(2, quote)) { buff.push_back(c); continue; } break; } if(c == '\0') { if(quote3 && src->mode == REPL_MODE) return NeedMoreLines(); return SyntaxError("EOL while scanning string literal"); } if(c == '\n') { if(!quote3) return SyntaxError("EOL while scanning string literal"); else { buff.push_back(c); continue; } } if(!raw && c == '\\') { switch(eatchar_include_newline()) { case '"': buff.push_back('"'); break; case '\'': buff.push_back('\''); break; case '\\': buff.push_back('\\'); break; case 'n': buff.push_back('\n'); break; case 'r': buff.push_back('\r'); break; case 't': buff.push_back('\t'); break; case 'b': buff.push_back('\b'); break; case 'x': { char hex[3] = {eatchar(), eatchar(), '\0'}; size_t parsed; char code; try { code = (char)std::stoi(hex, &parsed, 16); } catch(...) { return SyntaxError("invalid hex char"); } if(parsed != 2) return SyntaxError("invalid hex char"); buff.push_back(code); } break; default: return SyntaxError("invalid escape char"); } } else { buff.push_back(c); } } *out = Str(buff.data(), buff.size()); return nullptr; } Error* Lexer::eat_string(char quote, StringType type) noexcept{ Str s; Error* err = eat_string_until(quote, type == StringType::RAW_STRING, &s); if(err) return err; if(type == StringType::F_STRING) { add_token(TK("@fstr"), s); }else if(type == StringType::NORMAL_BYTES) { add_token(TK("@bytes"), s); }else{ add_token(TK("@str"), s); } return NULL; } Error* Lexer::eat_number() noexcept{ const char* i = token_start; while(is_possible_number_char(*i)) i++; bool is_scientific_notation = false; if(*(i - 1) == 'e' && (*i == '+' || *i == '-')) { i++; while(isdigit(*i) || *i == 'j') i++; is_scientific_notation = true; } std::string_view text(token_start, i - token_start); this->curr_char = i; if(text[0] != '.' && !is_scientific_notation) { // try long if(i[-1] == 'L') { add_token(TK("@long")); return NULL; } // try integer i64 int_out; switch(parse_uint(text, &int_out, -1)) { case IntParsingResult::Success: add_token(TK("@num"), int_out); return NULL; case IntParsingResult::Overflow: return SyntaxError("int literal is too large"); case IntParsingResult::Failure: break; // do nothing } } // try float double float_out; char* p_end; try { float_out = std::strtod(text.data(), &p_end); } catch(...) { return SyntaxError("invalid number literal"); } if(p_end == text.data() + text.size()) { add_token(TK("@num"), (f64)float_out); return NULL; } if(i[-1] == 'j' && p_end == text.data() + text.size() - 1) { add_token(TK("@imag"), (f64)float_out); return NULL; } return SyntaxError("invalid number literal"); } Error* Lexer::lex_one_token(bool* eof) noexcept{ *eof = false; while(peekchar() != '\0') { token_start = curr_char; char c = eatchar_include_newline(); switch(c) { case '\'': case '"': { Error* err = eat_string(c, StringType::NORMAL_STRING); if(err) return err; return NULL; } case '#': skip_line_comment(); break; case '~': add_token(TK("~")); return NULL; case '{': add_token(TK("{")); return NULL; case '}': add_token(TK("}")); return NULL; case ',': add_token(TK(",")); return NULL; case ':': add_token(TK(":")); return NULL; case ';': add_token(TK(";")); return NULL; case '(': add_token(TK("(")); return NULL; case ')': add_token(TK(")")); return NULL; case '[': add_token(TK("[")); return NULL; case ']': add_token(TK("]")); return NULL; case '@': add_token(TK("@")); return NULL; case '\\': { // line continuation character char c = eatchar_include_newline(); if(c != '\n') { if(src->mode == REPL_MODE && c == '\0') return NeedMoreLines(); return SyntaxError("expected newline after line continuation character"); } eat_spaces(); return NULL; } case '%': add_token_2('=', TK("%"), TK("%=")); return NULL; case '&': add_token_2('=', TK("&"), TK("&=")); return NULL; case '|': add_token_2('=', TK("|"), TK("|=")); return NULL; case '^': add_token_2('=', TK("^"), TK("^=")); return NULL; case '.': { if(matchchar('.')) { if(matchchar('.')) { add_token(TK("...")); } else { add_token(TK("..")); } } else { char next_char = peekchar(); if(next_char >= '0' && next_char <= '9') { Error* err = eat_number(); if(err) return err; } else { add_token(TK(".")); } } return NULL; } case '=': add_token_2('=', TK("="), TK("==")); return NULL; case '+': if(matchchar('+')) { add_token(TK("++")); } else { add_token_2('=', TK("+"), TK("+=")); } return NULL; case '>': { if(matchchar('=')) add_token(TK(">=")); else if(matchchar('>')) add_token_2('=', TK(">>"), TK(">>=")); else add_token(TK(">")); return NULL; } case '<': { if(matchchar('=')) add_token(TK("<=")); else if(matchchar('<')) add_token_2('=', TK("<<"), TK("<<=")); else add_token(TK("<")); return NULL; } case '-': { if(matchchar('-')) { add_token(TK("--")); } else { if(matchchar('=')) add_token(TK("-=")); else if(matchchar('>')) add_token(TK("->")); else add_token(TK("-")); } return NULL; } case '!': if(matchchar('=')){ add_token(TK("!=")); }else{ Error* err = SyntaxError("expected '=' after '!'"); if(err) return err; } break; case '*': if(matchchar('*')) { add_token(TK("**")); // '**' } else { add_token_2('=', TK("*"), TK("*=")); } return NULL; case '/': if(matchchar('/')) { add_token_2('=', TK("//"), TK("//=")); } else { add_token_2('=', TK("/"), TK("/=")); } return NULL; case ' ': case '\t': eat_spaces(); break; case '\n': { add_token(TK("@eol")); if(!eat_indentation()){ return IndentationError("unindent does not match any outer indentation level"); } return NULL; } default: { if(c == 'f') { if(matchchar('\'')) return eat_string('\'', StringType::F_STRING); if(matchchar('"')) return eat_string('"', StringType::F_STRING); } else if(c == 'r') { if(matchchar('\'')) return eat_string('\'', StringType::RAW_STRING); if(matchchar('"')) return eat_string('"', StringType::RAW_STRING); } else if(c == 'b') { if(matchchar('\'')) return eat_string('\'', StringType::NORMAL_BYTES); if(matchchar('"')) return eat_string('"', StringType::NORMAL_BYTES); } if(c >= '0' && c <= '9') return eat_number(); return eat_name(); } } } token_start = curr_char; while(indents.size() > 1) { indents.pop_back(); add_token(TK("@dedent")); return NULL; } add_token(TK("@eof")); *eof = true; return NULL; } Error* Lexer::_error(bool lexer_err, const char* type, const char* msg, va_list* args, i64 userdata) noexcept{ PK_THREAD_LOCAL Error err; err.type = type; err.src = src; if(lexer_err){ err.lineno = current_line; err.cursor = curr_char; if(*curr_char == '\n') { err.lineno--; err.cursor--; } }else{ err.lineno = -1; err.cursor = NULL; } if(args){ vsnprintf(err.msg, sizeof(err.msg), msg, *args); }else{ std::strncpy(err.msg, msg, sizeof(err.msg)); } err.userdata = userdata; return &err; } Error* Lexer::SyntaxError(const char* fmt, ...) noexcept{ va_list args; va_start(args, fmt); Error* err = _error(true, "SyntaxError", fmt, &args); va_end(args); return err; } Lexer::Lexer(VM* vm, std::shared_ptr src) noexcept : vm(vm), src(src){ this->token_start = pkpy_Str__data(&src->source); this->curr_char = pkpy_Str__data(&src->source); } Error* Lexer::run() noexcept{ assert(!this->used); this->used = true; if(src->is_precompiled) { return from_precompiled(); } // push initial tokens this->nexts.push_back(Token{TK("@sof"), token_start, 0, current_line, brackets_level, {}}); this->indents.push_back(0); bool eof = false; while(!eof) { Error* err = lex_one_token(&eof); if(err) return err; } return NULL; } Error* Lexer::from_precompiled() noexcept{ TokenDeserializer deserializer(pkpy_Str__data(&src->source)); deserializer.curr += 5; // skip "pkpy:" std::string_view version = deserializer.read_string('\n'); if(version != PK_VERSION){ return SyntaxError("precompiled version mismatch"); } if(deserializer.read_uint('\n') != (i64)src->mode){ return SyntaxError("precompiled mode mismatch"); } int count = deserializer.read_count(); auto precompiled_tokens = &src->_precompiled_tokens; for(int i = 0; i < count; i++) { c11_vector__push(Str, precompiled_tokens, Str(deserializer.read_string('\n'))); } count = deserializer.read_count(); for(int i = 0; i < count; i++) { Token t; t.type = (unsigned char)deserializer.read_uint(','); if(is_raw_string_used(t.type)) { i64 index = deserializer.read_uint(','); t.start = c11__getitem(Str, precompiled_tokens, index).c_str(); t.length = c11__getitem(Str, precompiled_tokens, index).size; } else { t.start = nullptr; t.length = 0; } if(deserializer.match_char(',')) { t.line = nexts.back().line; } else { t.line = (int)deserializer.read_uint(','); } if(deserializer.match_char(',')) { t.brackets_level = nexts.back().brackets_level; } else { t.brackets_level = (int)deserializer.read_uint(','); } char type = deserializer.read_char(); switch(type) { case 'I': t.value = deserializer.read_uint('\n'); break; case 'F': t.value = deserializer.read_float('\n'); break; case 'S': t.value = deserializer.read_string_from_hex('\n'); break; default: t.value = {}; break; } nexts.push_back(t); } return NULL; } Error* Lexer::precompile(Str* out) noexcept{ assert(!src->is_precompiled); Error* err = run(); if(err) return err; SStream ss; ss << "pkpy:" PK_VERSION << '\n'; // L1: version string ss << (int)src->mode << '\n'; // L2: mode small_map token_indices; for(auto token: nexts) { if(is_raw_string_used(token.type)) { if(!token_indices.contains(token.sv())) { token_indices.insert(token.sv(), 0); // assert no '\n' in token.sv() for(char c: token.sv()) assert(c != '\n'); } } } ss << "=" << (int)token_indices.size() << '\n'; // L3: raw string count int index = 0; for(auto& kv: token_indices) { ss << kv.first << '\n'; // L4: raw strings kv.second = index++; } ss << "=" << (int)nexts.size() << '\n'; // L5: token count for(int i = 0; i < nexts.size(); i++) { const Token& token = nexts[i]; ss << (int)token.type << ','; if(is_raw_string_used(token.type)) { ss << token_indices[token.sv()] << ','; } if(i > 0 && nexts[i - 1].line == token.line) ss << ','; else ss << token.line << ','; if(i > 0 && nexts[i - 1].brackets_level == token.brackets_level) ss << ','; else ss << token.brackets_level << ','; // visit token value std::visit( [&ss](auto&& arg) { using T = std::decay_t; if constexpr(std::is_same_v) { ss << 'I' << arg; } else if constexpr(std::is_same_v) { ss << 'F' << arg; } else if constexpr(std::is_same_v) { ss << 'S'; for(char c: arg) ss.write_hex((unsigned char)c); } ss << '\n'; }, token.value); } *out = ss.str(); return NULL; } std::string_view TokenDeserializer::read_string(char c) noexcept{ const char* start = curr; while(*curr != c) curr++; std::string_view retval(start, curr - start); curr++; // skip the delimiter return retval; } Str TokenDeserializer::read_string_from_hex(char c) noexcept{ std::string_view s = read_string(c); char* buffer = (char*)std::malloc(s.size() / 2 + 1); for(int i = 0; i < s.size(); i += 2) { char c = 0; if(s[i] >= '0' && s[i] <= '9') c += s[i] - '0'; else if(s[i] >= 'a' && s[i] <= 'f') c += s[i] - 'a' + 10; else assert(false); c <<= 4; if(s[i + 1] >= '0' && s[i + 1] <= '9') c += s[i + 1] - '0'; else if(s[i + 1] >= 'a' && s[i + 1] <= 'f') c += s[i + 1] - 'a' + 10; else assert(false); buffer[i / 2] = c; } buffer[s.size() / 2] = 0; return pair(buffer, s.size() / 2); } int TokenDeserializer::read_count() noexcept{ assert(*curr == '='); curr++; return read_uint('\n'); } i64 TokenDeserializer::read_uint(char c) noexcept{ i64 out = 0; while(*curr != c) { out = out * 10 + (*curr - '0'); curr++; } curr++; // skip the delimiter return out; } f64 TokenDeserializer::read_float(char c) noexcept{ std::string_view sv = read_string(c); return std::stod(std::string(sv)); } IntParsingResult parse_uint(std::string_view text, i64* out, int base) noexcept{ *out = 0; if(base == -1) { if(text.substr(0, 2) == "0b") base = 2; else if(text.substr(0, 2) == "0o") base = 8; else if(text.substr(0, 2) == "0x") base = 16; else base = 10; } if(base == 10) { // 10-base 12334 if(text.length() == 0) return IntParsingResult::Failure; for(char c: text) { if(c >= '0' && c <= '9') { *out = (*out * 10) + (c - '0'); } else { return IntParsingResult::Failure; } } const std::string_view INT64_MAX_S = "9223372036854775807"; if(text.length() > INT64_MAX_S.length()) return IntParsingResult::Overflow; return IntParsingResult::Success; } else if(base == 2) { // 2-base 0b101010 if(text.substr(0, 2) == "0b") text.remove_prefix(2); if(text.length() == 0) return IntParsingResult::Failure; for(char c: text) { if(c == '0' || c == '1') { *out = (*out << 1) | (c - '0'); } else { return IntParsingResult::Failure; } } const std::string_view INT64_MAX_S = "111111111111111111111111111111111111111111111111111111111111111"; if(text.length() > INT64_MAX_S.length()) return IntParsingResult::Overflow; return IntParsingResult::Success; } else if(base == 8) { // 8-base 0o123 if(text.substr(0, 2) == "0o") text.remove_prefix(2); if(text.length() == 0) return IntParsingResult::Failure; for(char c: text) { if(c >= '0' && c <= '7') { *out = (*out << 3) | (c - '0'); } else { return IntParsingResult::Failure; } } const std::string_view INT64_MAX_S = "777777777777777777777"; if(text.length() > INT64_MAX_S.length()) return IntParsingResult::Overflow; return IntParsingResult::Success; } else if(base == 16) { // 16-base 0x123 if(text.substr(0, 2) == "0x") text.remove_prefix(2); if(text.length() == 0) return IntParsingResult::Failure; for(char c: text) { if(c >= '0' && c <= '9') { *out = (*out << 4) | (c - '0'); } else if(c >= 'a' && c <= 'f') { *out = (*out << 4) | (c - 'a' + 10); } else if(c >= 'A' && c <= 'F') { *out = (*out << 4) | (c - 'A' + 10); } else { return IntParsingResult::Failure; } } const std::string_view INT64_MAX_S = "7fffffffffffffff"; if(text.length() > INT64_MAX_S.length()) return IntParsingResult::Overflow; return IntParsingResult::Success; } return IntParsingResult::Failure; } } // namespace pkpy