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5 Commits
V0.0.5
...
V0.0.7-bet
| Author | SHA1 | Date | |
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| 7cef3a0bce | |||
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fdcbc31cca | ||
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4f1a21e9c2 | ||
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5edf6ed382 | ||
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99b9ae450e |
@@ -41,18 +41,18 @@ std::string generateAssembly(const CompilerState& state) {
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result += "global main\n";
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result += "extern printf\n";
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result += "extern getchar\n";
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result += "extern _getch\n";
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result += "extern rand\n";
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result += "extern srand\n";
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result += "extern time\n";
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result += "section .data\n";
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result += " fmt db '%d', 10, 0\n";
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result += "section .data\n";
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result += " fmt_int db '%d', 10, 0\n"; // Format dla liczb
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result += " fmt_str db '%s', 10, 0\n"; // NOWOŒÆ: Format dla stringów
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result += " fmt_str db '%s', 10, 0\n"; // Format dla stringów
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// --- WYPISYWANIE STRINGÓW ---
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for (const auto& pair : state.stringLiterals) {
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// Nazwa etykiety: db 'Tresc', 0
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// Uwaga: ASM nie lubi pewnych znaków, ale zak³adamy proste litery
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result += " " + pair.second + " db '" + pair.first + "', 0\n";
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}
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for (const auto& pair : state.stringLiterals) { result += " " + pair.second + " db '" + pair.first + "', 0\n"; }
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result += "section .text\n\n";
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for (const auto& pair : state.functions) {
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@@ -87,7 +87,9 @@ std::string generateAssembly(const CompilerState& state) {
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instr.type == OpType::ADD ||
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instr.type == OpType::EQ ||
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instr.type == OpType::SUB ||
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instr.type == OpType::MUL);
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instr.type == OpType::MUL ||
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instr.type == OpType::DIV ||
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instr.type == OpType::MOD);
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if (isWriteOp && stackMap.find(instr.arg1) == stackMap.end() && instr.arg1 != "RAX") {
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stackMap[instr.arg1] = currentStack;
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@@ -186,7 +188,10 @@ std::string generateAssembly(const CompilerState& state) {
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}
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case OpType::RETURN: {
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std::string val = getVarLocation(instr.arg1, stackMap);
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result += " mov eax, " + val + " ; return value\n";
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if (val.empty() || val == ";");
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else {
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result += " mov eax, " + val + " ; return value\n";
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}
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result += " leave\n";
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result += " ret\n";
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break;
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@@ -209,9 +214,21 @@ std::string generateAssembly(const CompilerState& state) {
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// Parsowanie argumentów
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std::string argsRaw = instr.arg2;
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std::vector<std::string> callArgs;
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// --- SPECJALNE FUNKCJE SYSTEMOWE ---
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// 1. input() - czeka na ENTER (stare)
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if (instr.arg1 == "input") {
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result += " call getchar\n"; // Czeka na enter
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break; // Wychodzimy, ¿eby nie robiæ standardowego call
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result += " call getchar\n";
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break;
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}
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// 2. read_key() - zwraca kod wciœniêtego klawisza (NOWOŒÆ)
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if (instr.arg1 == "read_key") {
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result += " call _getch\n"; // Zwraca kod znaku w EAX
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// Jeœli to klawisz specjalny (strza³ki), _getch zwraca 0 lub 224,
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// a potem trzeba wywo³aæ go drugi raz.
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// Na razie zróbmy prosto: zwracamy to co zwróci³ pierwszy _getch.
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break;
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}
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if (!argsRaw.empty()) {
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size_t comma = argsRaw.find(',');
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@@ -248,9 +265,59 @@ std::string generateAssembly(const CompilerState& state) {
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}
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}
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// ... wewn¹trz case OpType::CALL ...
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if (instr.arg1 == "sys_seed") {
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result += " mov rcx, 0\n";
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result += " call time\n"; // Pobierz czas
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result += " mov rcx, rax\n"; // Czas jako argument dla srand
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result += " call srand\n"; // Inicjuj generator
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break;
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}
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if (instr.arg1 == "sys_rand") {
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result += " call rand\n"; // Wynik w EAX
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break;
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}
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result += " call " + instr.arg1 + "\n";
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break;
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}
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case OpType::DIV: {
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std::string op1 = getVarLocation(instr.arg2, stackMap);
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std::string op2 = getVarLocation(instr.arg3, stackMap);
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std::string dst = getVarLocation(instr.arg1, stackMap);
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result += " mov eax, " + op1 + "\n";
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result += " cdq\n"; // Rozszerza EAX na EDX:EAX (konieczne przed dzieleniem)
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// IDIV nie przyjmuje sta³ej (np. 10), musi byæ rejestr
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if (isdigit(op2[0]) || op2[0] == '-') {
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result += " mov ecx, " + op2 + "\n";
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result += " idiv ecx\n";
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}
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else {
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result += " idiv dword " + op2 + "\n";
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}
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result += " mov " + dst + ", eax\n"; // Wynik dzielenia
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break;
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}
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case OpType::MOD: {
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std::string op1 = getVarLocation(instr.arg2, stackMap);
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std::string op2 = getVarLocation(instr.arg3, stackMap);
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std::string dst = getVarLocation(instr.arg1, stackMap);
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result += " mov eax, " + op1 + "\n";
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result += " cdq\n"; // Rozszerza EAX
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if (isdigit(op2[0]) || op2[0] == '-') {
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result += " mov ecx, " + op2 + "\n";
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result += " idiv ecx\n";
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}
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else {
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result += " idiv dword " + op2 + "\n";
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}
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result += " mov " + dst + ", edx\n"; // EDX to reszta z dzielenia!
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break;
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}
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}
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}
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@@ -261,4 +328,4 @@ std::string generateAssembly(const CompilerState& state) {
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}
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return result;
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}
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}
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@@ -19,6 +19,8 @@ enum class OpType {
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LABEL, // miejsce skoku
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CALL, // wywo³anie funkcji
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RETURN, // return x
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DIV, // dzielenie
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MOD, // Reszta z dzelenia (%)
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NOP // pusta instrukcja
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};
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@@ -37,7 +37,6 @@ void processSource(const std::string& src, CompilerState& state) {
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// --- 1. DEFINICJA FUNKCJI ---
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// Warunki: zaczyna się od typu, ma '(', ma '{' i NIE ma '=' (żeby nie mylić ze zmienną)
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bool startsWithType = (line.rfind("int ", 0) == 0 || line.rfind("void ", 0) == 0 || line.rfind("bool ", 0) == 0);
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if (startsWithType && line.find("(") != std::string::npos && line.find("{") != std::string::npos && line.find("=") == std::string::npos) {
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size_t openParen = line.find('(');
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@@ -56,7 +55,6 @@ void processSource(const std::string& src, CompilerState& state) {
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std::cout << "[PARSER] New Function: " << funcName << "\n";
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continue;
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}
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// --- 2. ZAMYKANIE BLOKU '}' ---
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if (line == "}") {
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// Najpierw sprawdzamy, czy zamykamy IF-a (czy jest coś na stosie bloków)
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@@ -75,7 +73,6 @@ void processSource(const std::string& src, CompilerState& state) {
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}
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continue;
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}
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// --- JESTEŚMY W ŚRODKU FUNKCJI ---
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if (state.currentFunction) {
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Function& f = *state.currentFunction;
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@@ -188,6 +185,19 @@ void processSource(const std::string& src, CompilerState& state) {
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std::string b = trim(rightSide.substr(opPos + 1));
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f.instructions.push_back({ OpType::MUL, varName, a, b }); // <--- Używamy MUL
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}
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else if (rightSide.find("/") != std::string::npos) {
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size_t opPos = rightSide.find("/");
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std::string a = trim(rightSide.substr(0, opPos));
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std::string b = trim(rightSide.substr(opPos + 1));
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f.instructions.push_back({ OpType::DIV, varName, a, b });
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}
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// MODULO: a % b
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else if (rightSide.find("%") != std::string::npos) {
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size_t opPos = rightSide.find("%");
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std::string a = trim(rightSide.substr(0, opPos));
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std::string b = trim(rightSide.substr(opPos + 1));
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f.instructions.push_back({ OpType::MOD, varName, a, b });
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}
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// 3. Czy to porównanie? a == b (Ważne: == może być w IFie, ale tu jesteśmy w linii z '=')
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// UWAGA: To rzadkie w C++ (bool x = a == b), ale obsłużmy proste przypisanie wartości logicznej
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else if (rightSide.find("==") != std::string::npos) {
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@@ -1,6 +1,6 @@
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# PCC Compiler (My C++ Compiler)
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@@ -13,9 +13,11 @@ https://nodrop.xyz/docs/docs.html
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- **Custom Syntax**: C-like syntax easy for beginners.
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- **Variables**: Support for `int`, `bool` and `string`.
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- **include files**: you can include base files from compiler `#include <main.pcc>` or your own files `#include "myfile.pcc"`.
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- **KeyBoard and Inputs Support**: now you can control keyboard inputs using `#include <Input.pcc>`.
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- **Control Flow**: `if` statements support.
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- **Functions**: Define and call `void` functions.
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- **Native Compilation**: Compiles directly to x64 machine code.
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- **More Informations**: For more informations check PCC Docs.
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## 🛠️ Usage
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1. Download the latest release from the [Releases](../../releases) page.
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Reference in New Issue
Block a user