/* * * Copyright (C) 2024 Brett Terpstra * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include //// small scale enum class op { ADD, SUB, MUL, DIV, LIT }; std::string to_string(op o) { switch (o) { case op::ADD: return "ADD"; case op::SUB: return "SUB"; case op::MUL: return "MUL"; case op::DIV: return "DIV"; case op::LIT: return "LIT"; } return ""; } constexpr static long SEED = 41912; op generate_op() { static std::mt19937_64 engine(SEED); static std::uniform_int_distribution dist(0, static_cast(op::LIT) - 1); return static_cast(dist(engine)); } bool choice() { static std::mt19937_64 engine(SEED); static std::uniform_int_distribution dist(0, 1); return dist(engine); } float random_value() { static std::mt19937_64 engine(SEED); static std::uniform_real_distribution dist(0.0f, 10.0f); return dist(engine); } void test() { std::vector operations; std::vector values; std::stack tree_generator; tree_generator.push(generate_op()); while (!tree_generator.empty()) { auto opn = tree_generator.top(); tree_generator.pop(); operations.push_back(opn); if (opn == op::LIT) { values.push_back(random_value()); continue; } // child 1 if (choice()) tree_generator.push(generate_op()); else tree_generator.push(op::LIT); // child 2 if (choice()) tree_generator.push(generate_op()); else tree_generator.push(op::LIT); } for (const auto& v : operations) std::cout << to_string(v) << " "; std::cout << std::endl; { std::stack process; for (const auto& v : operations) { switch (v) { case op::ADD: case op::SUB: case op::MUL: case op::DIV: process.emplace(2); std::cout << "("; break; case op::LIT: break; } std::cout << to_string(v); while (!process.empty()) { auto top = process.top(); process.pop(); if (top == 0) { std::cout << ")"; continue; } else { std::cout << " "; process.push(top - 1); break; } } } while (!process.empty()) { auto top = process.top(); process.pop(); if (top == 0) { std::cout << ") "; continue; } else { std::cerr << "FUCK YOU\n"; break; } } std::cout << std::endl; } for (const auto& v : values) std::cout << v << " "; std::cout << std::endl; { std::stack process; blt::size_t index = 0; for (const auto& v : operations) { switch (v) { case op::ADD: case op::SUB: case op::MUL: case op::DIV: process.emplace(2); std::cout << "("; std::cout << to_string(v); break; case op::LIT: std::cout << values[index++]; break; } while (!process.empty()) { auto top = process.top(); process.pop(); if (top == 0) { std::cout << ")"; continue; } else { std::cout << " "; process.push(top - 1); break; } } } while (!process.empty()) { auto top = process.top(); process.pop(); if (top == 0) { std::cout << ") "; continue; } else { std::cerr << "FUCK YOU\n"; break; } } std::cout << std::endl; } std::stack process; std::stack operators; for (const auto& v : operations) operators.push(v); while (!operators.empty()) { auto oper = operators.top(); operators.pop(); if (oper == op::LIT) { process.push(values.back()); values.pop_back(); } else { auto v1 = process.top(); process.pop(); auto v2 = process.top(); process.pop(); std::cout << "processing oper " << to_string(oper) << " with values " << v1 << " " << v2 << std::endl; switch (oper) { case op::ADD: values.push_back(v1 + v2); operators.push(op::LIT); break; case op::SUB: values.push_back(v1 - v2); operators.push(op::LIT); break; case op::MUL: values.push_back(v1 * v2); operators.push(op::LIT); break; case op::DIV: if (v2 == 0) v2 = 1; values.push_back(v1 / v2); operators.push(op::LIT); break; case op::LIT: break; } std::cout << "\tresult: " << values.back() << std::endl; } } std::cout << process.size() << std::endl; std::cout << process.top() << std::endl; } // //struct silly //{ // long nyah = 50; // int bruh = 10; // // friend std::ostream& operator<<(std::ostream& stream, const silly& silly) // { // stream << "[" << silly.nyah << " " << silly.bruh << "]"; // return stream; // } //}; // //struct large //{ // unsigned char data[2048]; //}; // //struct super_large //{ // unsigned char data[9582]; //}; blt::gp::stack_allocator alloc; float nyah(float f, int i, bool b) { return f + static_cast(i * b); } int main() { // constexpr blt::size_t MAX_ALIGNMENT = 8; // test(); // std::cout << alignof(silly) << " " << sizeof(silly) << std::endl; // std::cout << alignof(super_large) << " " << sizeof(super_large) << " " << ((sizeof(super_large) + (MAX_ALIGNMENT - 1)) & ~(MAX_ALIGNMENT - 1)) // << std::endl; // std::cout << ((sizeof(char) + (MAX_ALIGNMENT - 1)) & ~(MAX_ALIGNMENT - 1)) << " " // << ((sizeof(short) + (MAX_ALIGNMENT - 1)) & ~(MAX_ALIGNMENT - 1)) << std::endl; // std::cout << ((sizeof(int) + (MAX_ALIGNMENT - 1)) & ~(MAX_ALIGNMENT - 1)) << " " << ((sizeof(long) + (MAX_ALIGNMENT - 1)) & ~(MAX_ALIGNMENT - 1)) // << std::endl; // std::cout << alignof(void*) << " " << sizeof(void*) << std::endl; // std::cout << blt::type_string() << std::endl; // // alloc.push(50); // alloc.push(550.3f); // alloc.push(20.1230345); // alloc.push(true); // alloc.push(false); // alloc.push(std::string("SillyString")); // alloc.push(&"SillyString"); // // std::cout << std::endl; // std::cout << *alloc.pop() << std::endl; // std::cout << alloc.pop() << std::endl; // std::cout << alloc.pop() << std::endl; // std::cout << alloc.pop() << std::endl; // std::cout << alloc.pop() << std::endl; // std::cout << alloc.pop() << std::endl; // std::cout << alloc.pop() << std::endl; // std::cout << std::endl; // // std::cout << "Is empty? " << alloc.empty() << std::endl; // alloc.push(silly{}); // alloc.push(large{}); // alloc.push(super_large{}); // alloc.push(silly{25, 24}); // alloc.push(large{}); // // std::cout << std::endl; // std::cout << "Is empty? " << alloc.empty() << std::endl; // alloc.pop(); // std::cout << "Is empty? " << alloc.empty() << std::endl; // std::cout << alloc.pop() << std::endl; // std::cout << "Is empty? " << alloc.empty() << std::endl; // alloc.pop(); // std::cout << "Is empty? " << alloc.empty() << std::endl; // alloc.pop(); // std::cout << "Is empty? " << alloc.empty() << std::endl; // std::cout << alloc.pop() << std::endl; // std::cout << std::endl; // // std::cout << "Is empty? " << alloc.empty() << " bytes left: " << alloc.bytes_in_head() << std::endl; // std::cout << std::endl; // // alloc.push(silly{2, 5}); // alloc.push(large{}); // alloc.push(super_large{}); // alloc.push(silly{80, 10}); // alloc.push(large{}); // alloc.push(50); // alloc.push(550.3f); // alloc.push(20.1230345); // alloc.push(std::string("SillyString")); alloc.push(33.22f); alloc.push(120); alloc.push(true); blt::gp::operation_t silly_op(nyah); blt::gp::operation_t silly_op_2([](float f, float g) { return f + g; }); std::cout << silly_op(alloc) << std::endl; std::cout << "Is empty? " << alloc.empty() << std::endl; // std::cout << std::endl; // // //auto* pointer = static_cast(head->metadata.offset); // //return std::align(alignment, bytes, pointer, remaining_bytes); // // float f = 10.5; // int i = 412; // bool b = true; // // std::array arr{reinterpret_cast(&f), reinterpret_cast(&i), reinterpret_cast(&b)}; // // blt::span spv{arr}; // // std::cout << silly_op.operator()(spv) << std::endl; //std::cout << "Hello World!" << std::endl; }