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Matthew Gretton-Dann
2021-12-01 20:31:53 +00:00
commit 2f44ccc3a7
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# Project exclude paths
/cmake-build-debug/

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# Default ignored files
/shelf/
/workspace.xml
# Editor-based HTTP Client requests
/httpRequests/
# Datasource local storage ignored files
/dataSources/
/dataSources.local.xml

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<?xml version="1.0" encoding="UTF-8"?>
<module classpath="CMake" type="CPP_MODULE" version="4" />

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<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="CMakeWorkspace" PROJECT_DIR="$PROJECT_DIR$" />
</project>

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<?xml version="1.0" encoding="UTF-8"?>
<project version="4">
<component name="ProjectModuleManager">
<modules>
<module fileurl="file://$PROJECT_DIR$/.idea/advent-of-code.iml" filepath="$PROJECT_DIR$/.idea/advent-of-code.iml" />
</modules>
</component>
</project>

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#include <cassert>
#include <iostream>
#include <string>
int main(int argc, char **argv) {
for (std::string line; std::getline(std::cin, line);) {
int floor = 0;
for (auto c : line) {
assert(c == '(' || c == ')');
floor += (c == '(') - (c == ')');
}
std::cout << floor << "\n";
}
return 0;
}

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#include <cassert>
#include <iostream>
#include <string>
int main(int argc, char **argv) {
for (std::string line; std::getline(std::cin, line);) {
int floor = 0;
std::string::size_type pos = 0;
for (auto c : line) {
++pos;
assert(c == '(' || c == ')');
floor += (c == '(') - (c == ')');
if (floor == -1) {
break;
}
}
std::cout << pos << "\n";
}
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <string>
struct Box {
/** Construct box.
* \param s String representation of dimensions 'lxwxh'
*/
Box(std::string const &s) {
std::size_t pos = 0;
l_ = std::stoul(s, &pos, 10);
assert(s[pos] == 'x');
auto s2 = s.substr(pos + 1);
w_ = std::stoul(s2, &pos, 10);
assert(s2[pos] == 'x');
s2 = s2.substr(pos + 1);
h_ = std::stoul(s2, &pos, 10);
assert(pos == s2.length());
}
// How much paper does this box need?
unsigned long paper_needed() const {
unsigned long s1 = l_ * w_;
unsigned long s2 = w_ * h_;
unsigned long s3 = h_ * l_;
return 2 * (s1 + s2 + s3) + std::min({s1, s2, s3});
}
unsigned long l_;
unsigned long w_;
unsigned long h_;
};
int main(int argc, char **argv) {
unsigned long total = 0;
for (std::string line; std::getline(std::cin, line);) {
Box b(line);
auto amount = b.paper_needed();
std::cout << "Box " << line << " needs " << amount << " sq.feet\n";
total += amount;
}
std::cout << "Total = " << total << " square feet\n";
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <string>
struct Box {
/** Construct box.
* \param s String representation of dimensions 'lxwxh'
*/
Box(std::string const &s) {
std::size_t pos = 0;
l_ = std::stoul(s, &pos, 10);
assert(s[pos] == 'x');
auto s2 = s.substr(pos + 1);
w_ = std::stoul(s2, &pos, 10);
assert(s2[pos] == 'x');
s2 = s2.substr(pos + 1);
h_ = std::stoul(s2, &pos, 10);
assert(pos == s2.length());
}
// How much paper does this box need?
unsigned long paper_needed() const {
unsigned long s1 = l_ * w_;
unsigned long s2 = w_ * h_;
unsigned long s3 = h_ * l_;
return 2 * (s1 + s2 + s3) + std::min({s1, s2, s3});
}
// How much ribbon do we need?
unsigned long ribbon_needed() const {
// The various side perimeters - we want the min of these multiplied by
// volume.
unsigned long p1 = 2 * (l_ + w_);
unsigned long p2 = 2 * (w_ + h_);
unsigned long p3 = 2 * (h_ + l_);
return l_ * w_ * h_ + std::min({p1, p2, p3});
}
unsigned long l_;
unsigned long w_;
unsigned long h_;
};
int main(int argc, char **argv) {
unsigned long total = 0;
for (std::string line; std::getline(std::cin, line);) {
Box b(line);
auto amount = b.ribbon_needed();
std::cout << "Box " << line << " needs " << amount << " feet of ribbon\n";
total += amount;
}
std::cout << "Total = " << total << " feet of ribbon\n";
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <set>
#include <string>
struct Pos {
Pos(int x, int y) : x_(x), y_(y) {}
bool operator<(Pos const &rhs) const noexcept {
return x_ < rhs.x_ || (x_ == rhs.x_ && y_ < rhs.y_);
}
bool operator==(Pos const &rhs) const noexcept {
return x_ == rhs.x_ && y_ == rhs.y_;
}
void move(char c) {
switch (c) {
case '>':
++x_;
break;
case '<':
--x_;
break;
case '^':
++y_;
break;
case 'v':
--y_;
break;
default:
std::cout << "Unrecognised character: " << c << "\n";
break;
}
}
int x_;
int y_;
};
int main(int argc, char **argv) {
for (std::string line; std::getline(std::cin, line);) {
std::set<Pos> visited;
Pos santa(0, 0);
visited.insert(santa);
for (auto c : line) {
santa.move(c);
visited.insert(santa);
}
std::cout << "Houses visited = " << visited.size() << "\n";
}
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <set>
#include <string>
struct Pos {
Pos(int x, int y) : x_(x), y_(y) {}
bool operator<(Pos const &rhs) const noexcept {
return x_ < rhs.x_ || (x_ == rhs.x_ && y_ < rhs.y_);
}
bool operator==(Pos const &rhs) const noexcept {
return x_ == rhs.x_ && y_ == rhs.y_;
}
void move(char c) noexcept {
switch (c) {
case '>':
++x_;
break;
case '<':
--x_;
break;
case '^':
++y_;
break;
case 'v':
--y_;
break;
default:
std::cout << "Unrecognised character: " << c << "\n";
break;
}
}
int x_;
int y_;
};
int main(int argc, char **argv) {
for (std::string line; std::getline(std::cin, line);) {
std::set<Pos> visited;
Pos santa(0, 0);
Pos robo_santa(0, 0);
visited.insert(santa);
visited.insert(robo_santa);
bool do_robo = false;
for (auto c : line) {
if (do_robo) {
robo_santa.move(c);
visited.insert(robo_santa);
} else {
santa.move(c);
visited.insert(santa);
}
do_robo = !do_robo;
}
std::cout << "Houses visited = " << visited.size() << "\n";
}
return 0;
}

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find_package(OpenSSL REQUIRED)
target_link_libraries("${puzzle_name}" OpenSSL::SSL)

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <set>
#include <string>
#include <openssl/evp.h>
using MD5Digest = unsigned char[EVP_MAX_MD_SIZE];
unsigned int md5(MD5Digest digest, std::string const &s) {
EVP_MD const* md{EVP_md5()};
unsigned int md_len;
EVP_MD_CTX* md_ctxt{EVP_MD_CTX_new()};
assert(md_ctxt != NULL);
EVP_DigestInit_ex2(md_ctxt, md, NULL);
EVP_DigestUpdate(md_ctxt, s.data(), s.length());
EVP_DigestFinal_ex(md_ctxt, digest, &md_len);
return md_len;
}
bool is_valid(std::string const &s) {
MD5Digest digest;
auto len = md5(digest, s);
assert(len >= 3);
return digest[0] == 0 && digest[1] == 0 && (digest[2] & 0xf0) == 0;
}
int main(int argc, char **argv) {
for (std::string line; std::getline(std::cin, line);) {
unsigned i = 0;
while (!is_valid(line + std::to_string(i))) {
++i;
}
std::cout << "Value = " << i << "\n";
}
return 0;
}

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find_package(OpenSSL REQUIRED)
target_link_libraries("${puzzle_name}" OpenSSL::SSL)

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <set>
#include <string>
#include <openssl/evp.h>
using MD5Digest = unsigned char[EVP_MAX_MD_SIZE];
unsigned int md5(MD5Digest digest, std::string const &s) {
EVP_MD const* md{EVP_md5()};
unsigned int md_len;
EVP_MD_CTX* md_ctxt{EVP_MD_CTX_new()};
assert(md_ctxt != NULL);
EVP_DigestInit_ex2(md_ctxt, md, NULL);
EVP_DigestUpdate(md_ctxt, s.data(), s.length());
EVP_DigestFinal_ex(md_ctxt, digest, &md_len);
return md_len;
}
bool is_valid(std::string const &s) {
MD5Digest digest;
auto len = md5(digest, s);
assert(len >= 3);
return digest[0] == 0 && digest[1] == 0 && digest[2] == 0;
}
int main(int argc, char **argv) {
for (std::string line; std::getline(std::cin, line);) {
unsigned i = 0;
while (!is_valid(line + std::to_string(i))) {
++i;
}
std::cout << "Value = " << i << "\n";
}
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <set>
#include <string>
// Check if a string is nice:
// Nice strings have:
// >=3 vowels
// At least one double letter
// No instances of 'ab', 'cd', 'pq', or 'xy'.
bool is_nice(std::string const &s) noexcept {
unsigned vowel_count = 0;
bool repeated = false;
char last = '\0';
std::string vowels("aeiou");
for (auto c : s) {
if (vowels.find(c) != std::string::npos) {
++vowel_count;
}
if (c == last) {
repeated = true;
}
if ((last == 'a' && c == 'b') || (last == 'c' && c == 'd') ||
(last == 'p' && c == 'q') || (last == 'x' && c == 'y')) {
return false;
}
last = c;
}
return repeated && vowel_count >= 3;
}
int main(int argc, char **argv) {
unsigned nice_strings;
for (std::string line; std::getline(std::cin, line);) {
nice_strings += is_nice(line);
}
std::cout << nice_strings << '\n';
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <set>
#include <string>
// Check if a string is nice:
// Nice strings have:
// repeated double letters - but not overlapping
// repeated letters separated by one other.
bool is_nice(std::string const &s) noexcept {
bool repeated_pair = false;
bool repeated_sep = false;
std::cout << s;
for (std::string::size_type i = 0; i < s.length() - 2; ++i) {
// Find whether the two characters starting at i are repeated in the rest of
// the string. We don't have to look backwards as we will already have
// scanned it.
if (s.substr(i + 2).find(s.substr(i, 2)) != std::string::npos) {
repeated_pair = true;
std::cout << " repeated(" << s.substr(i, 2) << ")";
}
if (s[i] == s[i + 2]) {
repeated_sep = true;
std::cout << " pair(" << s.substr(i, 3) << ")";
}
}
if (repeated_pair && repeated_sep) {
std::cout << " match";
}
std::cout << "\n";
return repeated_pair && repeated_sep;
}
int main(int argc, char **argv) {
unsigned nice_strings;
for (std::string line; std::getline(std::cin, line);) {
nice_strings += is_nice(line);
}
std::cout << nice_strings << '\n';
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <regex>
#include <set>
#include <string>
enum class Action { TurnOn, Toggle, TurnOff };
using Point = std::pair<unsigned, unsigned>;
/// A command
struct Command {
Command(std::string const &s) {
const char *re =
"(turn on|toggle|turn off)\\s(\\d+),(\\d+)\\sthrough\\s(\\d+),(\\d+)";
std::smatch m;
if (!std::regex_search(s, m, std::regex(re))) {
std::cerr << "Unable to interpret:" << s << "\n";
assert(false);
}
if (m.str(1) == std::string("turn on")) {
act_ = Action::TurnOn;
} else if (m.str(1) == std::string("turn off")) {
act_ = Action::TurnOff;
} else if (m.str(1) == std::string("toggle")) {
act_ = Action::Toggle;
} else {
assert(false);
}
bottom_left_.first = std::stoul(m.str(2), nullptr, 10);
bottom_left_.second = std::stoul(m.str(3), nullptr, 10);
top_right_.first = std::stoul(m.str(4), nullptr, 10);
top_right_.second = std::stoul(m.str(5), nullptr, 10);
}
Action act_;
Point bottom_left_;
Point top_right_;
};
/// Array of lights
template <unsigned N> struct Array {
Array() noexcept {
for (unsigned i = 0; i < N; ++i) {
for (unsigned j = 0; j < N; ++j) {
lights_[i][j] = false;
}
}
}
/// Apply a command
void apply(Command const &command) noexcept {
assert(command.bottom_left_.first < N);
assert(command.bottom_left_.second < N);
assert(command.top_right_.first < N);
assert(command.top_right_.second < N);
for (unsigned i = command.bottom_left_.first; i <= command.top_right_.first;
++i) {
for (unsigned j = command.bottom_left_.second;
j <= command.top_right_.second; ++j) {
switch (command.act_) {
case Action::TurnOn:
lights_[i][j] = true;
break;
case Action::Toggle:
lights_[i][j] = !lights_[i][j];
break;
case Action::TurnOff:
lights_[i][j] = false;
break;
}
}
}
}
/// How many lights are on
unsigned num_on() const noexcept {
unsigned count = 0;
for (unsigned i = 0; i < N; ++i) {
for (unsigned j = 0; j < N; ++j) {
count += lights_[i][j];
}
}
return count;
}
/// Output a bitmap
void bitmap() const {
std::cout << "P1\n" << N << " " << N << "\n";
for (unsigned i = 0; i < N; ++i) {
for (unsigned j = 0; j < N; ++j) {
std::cout << (lights_[i][j] ? "1" : "0");
if (j % 70 == 0) {
std::cout << "\n";
}
}
std::cout << "\n";
}
}
bool lights_[N][N];
};
int main(int argc, char **argv) {
Array<1000> arr;
for (std::string line; std::getline(std::cin, line);) {
Command cmd(line);
arr.apply(cmd);
}
arr.bitmap();
std::cout << arr.num_on() << '\n';
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <regex>
#include <set>
#include <string>
enum class Action { TurnOn, Toggle, TurnOff };
using Point = std::pair<unsigned, unsigned>;
struct Command {
Command(std::string const &s) {
const char *re =
"(turn on|toggle|turn off)\\s(\\d+),(\\d+)\\sthrough\\s(\\d+),(\\d+)";
std::smatch m;
if (!std::regex_search(s, m, std::regex(re))) {
std::cerr << "Unable to interpret:" << s << "\n";
assert(false);
}
if (m.str(1) == std::string("turn on")) {
act_ = Action::TurnOn;
} else if (m.str(1) == std::string("turn off")) {
act_ = Action::TurnOff;
} else if (m.str(1) == std::string("toggle")) {
act_ = Action::Toggle;
} else {
assert(false);
}
bottom_left_.first = std::stoul(m.str(2), nullptr, 10);
bottom_left_.second = std::stoul(m.str(3), nullptr, 10);
top_right_.first = std::stoul(m.str(4), nullptr, 10);
top_right_.second = std::stoul(m.str(5), nullptr, 10);
}
Action act_;
Point bottom_left_;
Point top_right_;
};
template <unsigned N> struct Array {
Array() noexcept {
for (unsigned i = 0; i < N; ++i) {
for (unsigned j = 0; j < N; ++j) {
lights_[i][j] = 0;
}
}
}
void apply(Command const &command) noexcept {
assert(command.bottom_left_.first < N);
assert(command.bottom_left_.second < N);
assert(command.top_right_.first < N);
assert(command.top_right_.second < N);
for (unsigned i = command.bottom_left_.first; i <= command.top_right_.first;
++i) {
for (unsigned j = command.bottom_left_.second;
j <= command.top_right_.second; ++j) {
switch (command.act_) {
case Action::TurnOn:
++lights_[i][j];
break;
case Action::Toggle:
lights_[i][j] += 2;
break;
case Action::TurnOff:
if (lights_[i][j] > 0) {
--lights_[i][j];
}
break;
}
}
}
}
unsigned brightness() const noexcept {
unsigned count = 0;
for (unsigned i = 0; i < N; ++i) {
for (unsigned j = 0; j < N; ++j) {
count += lights_[i][j];
}
}
return count;
}
/// Output a bitmap
void bitmap() const {
unsigned max = 0;
for (unsigned i = 0; i < N; ++i) {
for (unsigned j = 0; j < N; ++j) {
if (lights_[i][j] > max) {
max = lights_[i][j];
}
}
}
std::cout << "P2\n" << N << " " << N << "\n" << max << "\n";
for (unsigned i = 0; i < N; ++i) {
for (unsigned j = 0; j < N; ++j) {
std::cout << lights_[i][j] << "\n";
}
}
}
unsigned lights_[N][N];
};
int main(int argc, char **argv) {
Array<1000> arr;
for (std::string line; std::getline(std::cin, line);) {
Command cmd(line);
arr.apply(cmd);
}
arr.bitmap();
std::cout << arr.brightness() << '\n';
return 0;
}

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#include <cassert>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <string>
#include <variant>
// Algorithm overview:
//
// Because I'm lazy we basically build up a list of 'instructions' and
// repeatedly walking through them executing the ones we can. We assume that
// each pass will achieve more than the previous pass as more signal values will
// have been determined (and they don't change between passes). Eventually the
// VM reaches a steady state and at that point we can determine what the value
// of the wire 'a'.
//
// This is fast enough and simple enough for our purposes.
//
// A "better" way would be to start from the instruction that sets 'a' and then
// execute the instructions that determine the signals coming into it, and so
// on. This would only require a single pass through the instruction list so
// would probably be significantly quicker. (But requires more thought in the
// implementation)
// helper type for the visitor #4
template <class... Ts> struct Overloaded : Ts... { using Ts::operator()...; };
// explicit deduction guide (not needed as of C++20)
template <class... Ts> Overloaded(Ts...) -> Overloaded<Ts...>;
/// Instruction action
enum class Action {
Set, ///< Set value
And, ///< And two values
Or, ///< Or two values
LShift, ///< Left shift
RShift, ///< Right shift
Not ///< Bitwise not
};
/// Pretty-print action
std::ostream &operator<<(std::ostream &os, Action act) {
switch (act) {
case Action::Set:
os << "SET";
break;
case Action::And:
os << "AND";
break;
case Action::Or:
os << "OR";
break;
case Action::LShift:
os << "LSHIFT";
break;
case Action::RShift:
os << "RSHIFT";
break;
case Action::Not:
os << "NOT";
break;
}
return os;
}
using Value = std::uint16_t; ///< Value
using Wire = std::string; ///< Wire name (string)
using Signal = std::variant<Value, Wire>; ///< Either a wire or explicit value
/// Outputter for a signal
std::ostream &operator<<(std::ostream &os, Signal const &signal) {
return std::visit(
[&os](auto &&arg) -> std::ostream & {
os << arg;
return os;
},
signal);
}
/** \brief An instruction. */
struct Instruction {
/** \brief Construct an instruction.
*
* \subsection Grammar
*
* wire := [a-z]+
* value := [0-9]+
* signal := value | wire
* set := signal '->' wire
* not := 'NOT' set
* op := 'AND' | 'OR' | 'LSHIFT' | 'RSHIFT'
* binop := signal op signal '->' wire
* instr := binop | not | set
*/
Instruction(std::string const &s) {
if (parse_bin_op(s)) {
return;
}
if (parse_not(s)) {
return;
}
if (parse_set(s)) {
return;
}
std::cout << "Unrecognised string: " << s << "\n";
assert(false);
}
/// Get action
Action action() const noexcept { return act_; }
/// Get the destination wire
Wire const &dest() const noexcept { return dest_; }
/// Get the first (or only) source
Signal const &src1() const noexcept { return src1_; }
/// Get the second source
Signal const &src2() const noexcept {
assert(act_ != Action::Set && act_ != Action::Not);
return src2_;
}
private:
/// Parse a <not> instruction. Return true if successful.
bool parse_not(std::string const &s) {
if (s.substr(0, 4) == "NOT ") {
std::string::size_type pos = 4;
while (s[pos] == ' ') {
++pos;
}
return parse_set(s.substr(pos), Action::Not);
}
return false;
}
/// Parse a <bin_op> instruction. Return true if successful.
bool parse_bin_op(std::string const &s) {
static const std::regex re("^([[:lower:][:digit:]]+) ([[:upper:]]+) "
"([[:lower:][:digit:]]+) -> ([[:lower:]]+)");
std::smatch m;
if (!std::regex_search(s, m, re)) {
return false;
}
if (m.str(2) == "AND") {
act_ = Action::And;
} else if (m.str(2) == "OR") {
act_ = Action::Or;
} else if (m.str(2) == "LSHIFT") {
act_ = Action::LShift;
} else if (m.str(2) == "RSHIFT") {
act_ = Action::RShift;
} else {
return false;
}
dest_ = m.str(4);
src1_ = make_signal(m.str(1));
src2_ = make_signal(m.str(3));
std::cout << act_ << " " << dest_ << ", " << src1_ << ", " << src2_ << "\n";
return true;
}
/// Parse a <set> instruction.
///
/// Also used for the latter half of <not> parsing. ACT tells you what is
/// being parsed. Returns true if parsing successful.
bool parse_set(std::string const &s, Action act = Action::Set) {
static const std::regex re("^([[:lower:][:digit:]]+) -> ([[:lower:]]+)");
std::smatch m;
if (!std::regex_search(s, m, re)) {
return false;
}
act_ = act;
dest_ = m.str(2);
src1_ = make_signal(m.str(1));
std::cout << act_ << " " << dest_ << ", " << src1_ << "\n";
return true;
}
/// Make a Signal from a string.
Signal make_signal(std::string const &s) {
if (std::isdigit(s[0])) {
auto u = std::stoul(s, nullptr, 10);
assert(u <= UINT16_MAX);
return Signal(static_cast<std::uint16_t>(u));
} else {
return Signal(s);
}
}
Action act_; ///< Action
Wire dest_; ///< Destination wire
Signal src1_, src2_; ///< Source signals
};
/// Outputter for an instruction.
std::ostream &operator<<(std::ostream &os, Instruction const &instr) {
os << instr.action() << " " << instr.dest() << ", " << instr.src1();
if (instr.action() != Action::Set && instr.action() != Action::Not) {
os << ", " << instr.src2();
}
return os;
}
/// Ma
using ValueMap = std::map<Wire, Value>; ///< Map wires to values
using Instructions = std::vector<Instruction>; ///< Instructions to execute
struct VM {
/// Add an instruction the the list we have
void add_instr(Instruction const &instr) { instrs_.push_back(instr); }
/// Has this wire a known value?
bool has_value(Wire const &w) const noexcept {
return values_.find(w) != values_.end();
}
/// Has this signal a known value?
bool has_value(Signal const &s) const noexcept {
return std::visit(Overloaded{[](Value v) { return true; },
[&](Wire const &w) { return has_value(w); }},
s);
}
/// Get the value on the wire
Value value(Wire const &w) const noexcept {
assert(has_value(w));
return values_.find(w)->second;
}
/// Get the value of a signal
Value value(Signal const &s) const noexcept {
return std::visit(Overloaded{[](Value v) { return v; },
[&](Wire const &w) { return value(w); }},
s);
}
/// Set the value of a wire
void value(Wire const &w, Value value) {
auto [it, success] = values_.insert({w, value});
assert(success);
}
/// Set the value of a signal
void value(Signal const &s, Value v) {
std::visit(Overloaded{[v](Value v2) { assert(v == v2); },
[&, v](Wire const &w) { value(w, v); }},
s);
}
/// Execute the instructions. Returns true if we have updated some wire
/// values.
bool execute() {
bool done_anything = false;
for (auto const &instr : instrs_) {
done_anything |= execute_instr(instr);
}
return done_anything;
}
private:
/** \brief Attempt to execute an instruction
* \param instr Instruction
* \return True if instruction was executed.
*
* An instruction may not be executed if the incoming signals have not been
* set yet.
*/
bool execute_instr(Instruction const &instr) {
std::cout << instr << " # ";
// First of all check there is something to do - i.e. that the destination
// register has not been set already.
Wire dest = instr.dest();
if (has_value(dest)) {
std::cout << "already has value: " << dest << " = " << value(dest)
<< "\n";
return false;
}
switch (instr.action()) {
case Action::Set:
return execute_single_src(instr, [](Value src) { return src; });
case Action::Not:
return execute_single_src(instr, [](Value src) { return ~src; });
case Action::And:
return execute_double_src(
instr, [](Value src1, Value src2) { return src1 & src2; });
case Action::Or:
return execute_double_src(
instr, [](Value src1, Value src2) { return src1 | src2; });
case Action::LShift:
return execute_double_src(
instr, [](Value src1, Value src2) { return src1 << src2; });
case Action::RShift:
return execute_double_src(
instr, [](Value src1, Value src2) { return src1 >> src2; });
}
return false;
}
/** \brief Attempt to execute a single source instruction.
* \param instr Instruction
* \param fn How to modify the source value to the dest.
* \return True if we executed the function.
*/
bool execute_single_src(Instruction const &instr,
std::function<Value(Value)> fn) {
Wire dest = instr.dest();
Signal src = instr.src1();
if (has_value(src)) {
value(dest, fn(value(src)));
std::cout << "setting wire to: " << dest << " = " << value(dest) << "\n";
return true;
}
std::cout << "missing value for signal: " << src << "\n";
return false;
}
/** \brief Attempt to execute a two source instruction.
* \param instr Instruction
* \param fn How to modify the source values to the dest.
* \return True if we executed the function.
*/
bool execute_double_src(Instruction const &instr,
std::function<Value(Value, Value)> fn) {
Wire dest = instr.dest();
Signal src1 = instr.src1();
Signal src2 = instr.src2();
if (has_value(src1) && has_value(src2)) {
value(dest, fn(value(src1), value(src2)));
std::cout << "setting wire to: " << dest << " = " << value(dest) << "\n";
return true;
}
std::cout << "missing value for signals: " << src1 << ", " << src2 << "\n";
return false;
}
ValueMap values_;
Instructions instrs_;
};
int main(int argc, char **argv) {
VM vm;
// Parse the input
for (std::string line; std::getline(std::cin, line);) {
Instruction instr(line);
vm.add_instr(instr);
}
// Execute the VM until it reaches a steady state
bool changed = true;
while (changed) {
changed = vm.execute();
}
// Get the value of wire 'a'
Wire a = Wire("a");
std::cout << "a = ";
if (!vm.has_value(a)) {
std::cout << "UNSET\n";
} else {
std::cout << vm.value(a) << "\n";
}
return 0;
}

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#include <cassert>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <string>
#include <variant>
// Algorithm overview:
//
// Because I'm lazy we basically build up a list of 'instructions' and
// repeatedly walking through them executing the ones we can. We assume that
// each pass will achieve more than the previous pass as more signal values will
// have been determined (and they don't change between passes). Eventually the
// VM reaches a steady state and at that point we can determine what the value
// of the wire 'a'.
//
// This is fast enough and simple enough for our purposes.
//
// A "better" way would be to start from the instruction that sets 'a' and then
// execute the instructions that determine the signals coming into it, and so
// on. This would only require a single pass through the instruction list so
// would probably be significantly quicker. (But requires more thought in the
// implementation)
// helper type for the visitor #4
template <class... Ts> struct Overloaded : Ts... { using Ts::operator()...; };
// explicit deduction guide (not needed as of C++20)
template <class... Ts> Overloaded(Ts...) -> Overloaded<Ts...>;
/// Instruction action
enum class Action {
Set, ///< Set value
And, ///< And two values
Or, ///< Or two values
LShift, ///< Left shift
RShift, ///< Right shift
Not ///< Bitwise not
};
/// Pretty-print action
std::ostream &operator<<(std::ostream &os, Action act) {
switch (act) {
case Action::Set:
os << "SET";
break;
case Action::And:
os << "AND";
break;
case Action::Or:
os << "OR";
break;
case Action::LShift:
os << "LSHIFT";
break;
case Action::RShift:
os << "RSHIFT";
break;
case Action::Not:
os << "NOT";
break;
}
return os;
}
using Value = std::uint16_t; ///< Value
using Wire = std::string; ///< Wire name (string)
using Signal = std::variant<Value, Wire>; ///< Either a wire or explicit value
/// Outputter for a signal
std::ostream &operator<<(std::ostream &os, Signal const &signal) {
return std::visit(
[&os](auto &&arg) -> std::ostream & {
os << arg;
return os;
},
signal);
}
/** \brief An instruction. */
struct Instruction {
/** \brief Construct an instruction.
*
* \subsection Grammar
*
* wire := [a-z]+
* value := [0-9]+
* signal := value | wire
* set := signal '->' wire
* not := 'NOT' set
* op := 'AND' | 'OR' | 'LSHIFT' | 'RSHIFT'
* binop := signal op signal '->' wire
* instr := binop | not | set
*/
Instruction(std::string const &s) {
if (parse_bin_op(s)) {
return;
}
if (parse_not(s)) {
return;
}
if (parse_set(s)) {
return;
}
std::cout << "Unrecognised string: " << s << "\n";
assert(false);
}
/// Get action
Action action() const noexcept { return act_; }
/// Get the destination wire
Wire const &dest() const noexcept { return dest_; }
/// Get the first (or only) source
Signal const &src1() const noexcept { return src1_; }
/// Get the second source
Signal const &src2() const noexcept {
assert(act_ != Action::Set && act_ != Action::Not);
return src2_;
}
private:
/// Parse a <not> instruction. Return true if successful.
bool parse_not(std::string const &s) {
if (s.substr(0, 4) == "NOT ") {
std::string::size_type pos = 4;
while (s[pos] == ' ') {
++pos;
}
return parse_set(s.substr(pos), Action::Not);
}
return false;
}
/// Parse a <bin_op> instruction. Return true if successful.
bool parse_bin_op(std::string const &s) {
static const std::regex re("^([[:lower:][:digit:]]+) ([[:upper:]]+) "
"([[:lower:][:digit:]]+) -> ([[:lower:]]+)");
std::smatch m;
if (!std::regex_search(s, m, re)) {
return false;
}
if (m.str(2) == "AND") {
act_ = Action::And;
} else if (m.str(2) == "OR") {
act_ = Action::Or;
} else if (m.str(2) == "LSHIFT") {
act_ = Action::LShift;
} else if (m.str(2) == "RSHIFT") {
act_ = Action::RShift;
} else {
return false;
}
dest_ = m.str(4);
src1_ = make_signal(m.str(1));
src2_ = make_signal(m.str(3));
std::cout << act_ << " " << dest_ << ", " << src1_ << ", " << src2_ << "\n";
return true;
}
/// Parse a <set> instruction.
///
/// Also used for the latter half of <not> parsing. ACT tells you what is
/// being parsed. Returns true if parsing successful.
bool parse_set(std::string const &s, Action act = Action::Set) {
static const std::regex re("^([[:lower:][:digit:]]+) -> ([[:lower:]]+)");
std::smatch m;
if (!std::regex_search(s, m, re)) {
return false;
}
act_ = act;
dest_ = m.str(2);
src1_ = make_signal(m.str(1));
std::cout << act_ << " " << dest_ << ", " << src1_ << "\n";
return true;
}
/// Make a Signal from a string.
Signal make_signal(std::string const &s) {
if (std::isdigit(s[0])) {
auto u = std::stoul(s, nullptr, 10);
assert(u <= UINT16_MAX);
return Signal(static_cast<std::uint16_t>(u));
} else {
return Signal(s);
}
}
Action act_; ///< Action
Wire dest_; ///< Destination wire
Signal src1_, src2_; ///< Source signals
};
/// Outputter for an instruction.
std::ostream &operator<<(std::ostream &os, Instruction const &instr) {
os << instr.action() << " " << instr.dest() << ", " << instr.src1();
if (instr.action() != Action::Set && instr.action() != Action::Not) {
os << ", " << instr.src2();
}
return os;
}
/// Ma
using ValueMap = std::map<Wire, Value>; ///< Map wires to values
using Instructions = std::vector<Instruction>; ///< Instructions to execute
struct VM {
/// Add an instruction the the list we have
void add_instr(Instruction const &instr) { instrs_.push_back(instr); }
/// Has this wire a known value?
bool has_value(Wire const &w) const noexcept {
return values_.find(w) != values_.end();
}
/// Has this signal a known value?
bool has_value(Signal const &s) const noexcept {
return std::visit(Overloaded{[](Value v) { return true; },
[&](Wire const &w) { return has_value(w); }},
s);
}
/// Get the value on the wire
Value value(Wire const &w) const noexcept {
assert(has_value(w));
return values_.find(w)->second;
}
/// Get the value of a signal
Value value(Signal const &s) const noexcept {
return std::visit(Overloaded{[](Value v) { return v; },
[&](Wire const &w) { return value(w); }},
s);
}
/// Set the value of a wire
void value(Wire const &w, Value value) {
auto [it, success] = values_.insert({w, value});
assert(success);
}
/// Set the value of a signal
void value(Signal const &s, Value v) {
std::visit(Overloaded{[v](Value v2) { assert(v == v2); },
[&, v](Wire const &w) { value(w, v); }},
s);
}
/// Execute the instructions. Returns true if we have updated some wire
/// values.
bool execute() {
bool done_anything = false;
for (auto const &instr : instrs_) {
done_anything |= execute_instr(instr);
}
return done_anything;
}
private:
/** \brief Attempt to execute an instruction
* \param instr Instruction
* \return True if instruction was executed.
*
* An instruction may not be executed if the incoming signals have not been
* set yet.
*/
bool execute_instr(Instruction const &instr) {
std::cout << instr << " # ";
// First of all check there is something to do - i.e. that the destination
// register has not been set already.
Wire dest = instr.dest();
if (has_value(dest)) {
std::cout << "already has value: " << dest << " = " << value(dest)
<< "\n";
return false;
}
switch (instr.action()) {
case Action::Set:
return execute_single_src(instr, [](Value src) { return src; });
case Action::Not:
return execute_single_src(instr, [](Value src) { return ~src; });
case Action::And:
return execute_double_src(
instr, [](Value src1, Value src2) { return src1 & src2; });
case Action::Or:
return execute_double_src(
instr, [](Value src1, Value src2) { return src1 | src2; });
case Action::LShift:
return execute_double_src(
instr, [](Value src1, Value src2) { return src1 << src2; });
case Action::RShift:
return execute_double_src(
instr, [](Value src1, Value src2) { return src1 >> src2; });
}
return false;
}
/** \brief Attempt to execute a single source instruction.
* \param instr Instruction
* \param fn How to modify the source value to the dest.
* \return True if we executed the function.
*/
bool execute_single_src(Instruction const &instr,
std::function<Value(Value)> fn) {
Wire dest = instr.dest();
Signal src = instr.src1();
if (has_value(src)) {
value(dest, fn(value(src)));
std::cout << "setting wire to: " << dest << " = " << value(dest) << "\n";
return true;
}
std::cout << "missing value for signal: " << src << "\n";
return false;
}
/** \brief Attempt to execute a two source instruction.
* \param instr Instruction
* \param fn How to modify the source values to the dest.
* \return True if we executed the function.
*/
bool execute_double_src(Instruction const &instr,
std::function<Value(Value, Value)> fn) {
Wire dest = instr.dest();
Signal src1 = instr.src1();
Signal src2 = instr.src2();
if (has_value(src1) && has_value(src2)) {
value(dest, fn(value(src1), value(src2)));
std::cout << "setting wire to: " << dest << " = " << value(dest) << "\n";
return true;
}
std::cout << "missing value for signals: " << src1 << ", " << src2 << "\n";
return false;
}
ValueMap values_;
Instructions instrs_;
};
int main(int argc, char **argv) {
VM vm;
// Parse the input
for (std::string line; std::getline(std::cin, line);) {
Instruction instr(line);
vm.add_instr(instr);
}
// Execute the VM until it reaches a steady state
bool changed = true;
while (changed) {
changed = vm.execute();
}
// Get the value of wire 'a'
Wire a = Wire("a");
std::cout << "a = ";
if (!vm.has_value(a)) {
std::cout << "UNSET\n";
} else {
std::cout << vm.value(a) << "\n";
}
return 0;
}

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#include <cassert>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <string>
#include <variant>
enum class State { Begin, Normal, Escape, Hex1, Hex2, End };
std::string unescape(std::string const &s) {
std::string unescaped;
static const std::string hex = "0123456789abcdef0123456789ABCDEF";
State state = State::Begin;
unsigned char byte = 0;
for (auto c : s) {
switch (state) {
case State::Begin:
assert(c == '"');
state = State::Normal;
break;
case State::Normal:
if (c == '\\') {
state = State::Escape;
} else if (c == '"') {
state = State::End;
} else {
unescaped += c;
}
break;
case State::Escape:
if (c == '\\' || c == '"') {
state = State::Normal;
unescaped += c;
} else if (c == 'x') {
byte = 0;
state = State::Hex1;
} else {
assert(false);
}
break;
case State::Hex1: {
auto idx = hex.find(c);
assert(idx != std::string::npos);
byte = idx & 0xf;
state = State::Hex2;
break;
}
case State::Hex2: {
auto idx = hex.find(c);
assert(idx != std::string::npos);
byte = (byte << 4) + (idx & 0xf);
unescaped += (char)byte;
state = State::Normal;
break;
}
case State::End:
assert(false);
}
}
return unescaped;
}
int main(int argc, char **argv) {
unsigned len = 0;
// Parse the input
for (std::string line; std::getline(std::cin, line);) {
std::string unescaped = unescape(line);
len += line.length() - unescaped.length();
std::cout << line << ": " << line.length() << " written bytes, "
<< unescaped.length() << " memory bytes, difference: "
<< line.length() - unescaped.length() << "\n";
}
std::cout << len << "\n";
return 0;
}

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#include <cassert>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <string>
#include <variant>
std::string escape(std::string const &s) {
std::string escaped;
escaped += '"';
for (auto c : s) {
if (c == '\\' || c == '"') {
escaped += '\\';
}
escaped += c;
}
escaped += '"';
return escaped;
}
int main(int argc, char **argv) {
unsigned len = 0;
// Parse the input
for (std::string line; std::getline(std::cin, line);) {
std::string escaped = escape(line);
len += escaped.length() - line.length();
std::cout << line << ": " << line.length() << " memory bytes, "
<< escaped.length() << " escaped bytes, difference: "
<< escaped.length() - line.length() << "\n";
}
std::cout << len << "\n";
return 0;
}

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#include <cassert>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
using Weight = unsigned;
using Node = std::string;
using Edge = std::pair<Node, Node>;
using Nodes = std::set<Node>;
using Edges = std::map<Edge, Weight>;
struct Graph {
void add_edge(std::string const &s) {
static const std::regex re("(.+) to (.+) = (\\d+)");
std::smatch m;
if (!std::regex_search(s, m, re)) {
std::cout << "Failed to match: " << s << "\n";
assert(false);
return;
}
auto n1 = m.str(1);
auto n2 = m.str(2);
auto w = std::stoul(m.str(3));
auto edge = std::make_pair(n1, n2);
auto back_edge = std::make_pair(n2, n1);
nodes_.insert(n1);
nodes_.insert(n2);
weights_.insert({edge, w});
weights_.insert({back_edge, w});
std::cout << n1 << " <-> " << n2 << " weight: " << w << "\n";
}
Weight solve_tsp() const {
Weight min_weight = ~0U;
std::vector<Node> nodes(nodes_.begin(), nodes_.end());
std::sort(nodes.begin(), nodes.end());
do {
Weight current_weight = 0;
std::cout << "\r" << nodes[0];
for (std::size_t i = 1; i < nodes.size(); ++i) {
std::cout << " <- " << nodes[i] << std::flush;
Edge e = std::make_pair(nodes[i - 1], nodes[i]);
auto it = weights_.find(e);
assert(it != weights_.end());
current_weight += it->second;
}
std::cout << " " << std::flush;
if (current_weight < min_weight) {
min_weight = current_weight;
std::cout << "\nNew minimum weight: " << min_weight << "\n";
}
} while (std::next_permutation(nodes.begin(), nodes.end()));
std::cout << "\n";
return min_weight;
}
Nodes nodes_;
Edges weights_;
};
int main(int argc, char **argv) {
Graph g;
// Parse the input
for (std::string line; std::getline(std::cin, line);) {
g.add_edge(line);
}
auto w = g.solve_tsp();
std::cout << "Minimum weight = " << w << "\n";
return 0;
}

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#include <cassert>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
using Weight = unsigned;
using Node = std::string;
using Edge = std::pair<Node, Node>;
using Nodes = std::set<Node>;
using Edges = std::map<Edge, Weight>;
struct Graph {
void add_edge(std::string const &s) {
static const std::regex re("(.+) to (.+) = (\\d+)");
std::smatch m;
if (!std::regex_search(s, m, re)) {
std::cout << "Failed to match: " << s << "\n";
assert(false);
return;
}
auto n1 = m.str(1);
auto n2 = m.str(2);
auto w = std::stoul(m.str(3));
auto edge = std::make_pair(n1, n2);
auto back_edge = std::make_pair(n2, n1);
nodes_.insert(n1);
nodes_.insert(n2);
weights_.insert({edge, w});
weights_.insert({back_edge, w});
std::cout << n1 << " <-> " << n2 << " weight: " << w << "\n";
}
Weight solve_tsp() const {
Weight min_weight = ~0U;
visit_all_perms([&min_weight](Weight w) {
if (w < min_weight) {
std::cout << "\nNew minimum weight: " << w << "\n";
min_weight = w;
}
});
return min_weight;
}
Weight solve_max_tsp() const {
Weight max_weight = 0;
visit_all_perms([&max_weight](Weight w) {
if (w > max_weight) {
std::cout << "\nNew maximum weight: " << w << "\n";
max_weight = w;
}
});
return max_weight;
}
private:
template <typename Fn> void visit_all_perms(Fn fn) const {
std::vector<Node> nodes(nodes_.begin(), nodes_.end());
std::sort(nodes.begin(), nodes.end());
do {
Weight current_weight = 0;
std::cout << "\r" << nodes[0];
for (std::size_t i = 1; i < nodes.size(); ++i) {
std::cout << " <- " << nodes[i] << std::flush;
Edge e = std::make_pair(nodes[i - 1], nodes[i]);
auto it = weights_.find(e);
assert(it != weights_.end());
current_weight += it->second;
}
std::cout << " " << std::flush;
fn(current_weight);
} while (std::next_permutation(nodes.begin(), nodes.end()));
std::cout << "\n";
}
Nodes nodes_;
Edges weights_;
};
int main(int argc, char **argv) {
Graph g;
// Parse the input
for (std::string line; std::getline(std::cin, line);) {
g.add_edge(line);
}
auto w = g.solve_tsp();
std::cout << "Minimum weight = " << w << "\n";
w = g.solve_max_tsp();
std::cout << "Maximum weight = " << w << "\n";
return 0;
}

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#include <cassert>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
std::string look_and_say(std::string const &s) {
std::string result;
for (std::string::size_type i = 0; i < s.length();) {
unsigned num = 0;
char c = s[i];
while (s[i] == c) {
++i;
++num;
}
result += std::to_string(num) + c;
}
return result;
}
int main(int argc, char **argv) {
for (std::string line; std::getline(std::cin, line);) {
std::cout << "Application 0, length = " << line.length() << ": " << line
<< "\n";
for (int i = 1; i < 41; ++i) {
line = look_and_say(line);
std::cout << "Application " << i << ", length = " << line.length()
<< "\n";
}
std::cout << "Length: " << line.length() << "\n";
}
return 0;
}

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#include <cassert>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
std::string look_and_say(std::string const &s) {
std::string result;
for (std::string::size_type i = 0; i < s.length();) {
unsigned num = 0;
char c = s[i];
while (s[i] == c) {
++i;
++num;
}
result += std::to_string(num) + c;
}
return result;
}
int main(int argc, char **argv) {
for (std::string line; std::getline(std::cin, line);) {
std::cout << "Application 0, length = " << line.length() << ": " << line
<< "\n";
for (int i = 1; i < 51; ++i) {
line = look_and_say(line);
std::cout << "Application " << i << ", length = " << line.length()
<< "\n";
}
std::cout << "Length: " << line.length() << "\n";
}
return 0;
}

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#include <cassert>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
bool illegal_char(char c) { return c == 'i' || c == 'l' || c == 'o'; }
void pre_advance_password(std::string &s) {
std::string::size_type pos = 0;
while (pos < s.length() && !illegal_char(s[pos])) {
++pos;
}
if (pos == s.length()) {
return;
}
++s[pos++];
while (pos < s.length()) {
s[pos++] = 'a';
}
}
void advance_password(std::string &s) {
auto pos = s.length() - 1;
while (true) {
if (s[pos] == 'z') {
assert(pos != 0);
s[pos] = 'a';
pos -= 1;
} else {
++s[pos];
if (illegal_char(s[pos])) {
++s[pos];
}
return;
}
}
}
bool valid_password(std::string const &s) {
unsigned double_count = 0;
bool run = false;
char last2 = '\0';
char last = '\0';
for (auto c : s) {
if (c == last && last2 != c) {
++double_count;
} else if (c == last + 1 && c == last2 + 2) {
run = true;
}
last2 = last;
last = c;
}
return double_count >= 2 && run;
}
std::string next_password(std::string const &s) {
std::string result = s;
pre_advance_password(result);
do {
advance_password(result);
} while (!valid_password(result));
return result;
}
int main(int argc, char **argv) {
for (std::string line; std::getline(std::cin, line);) {
std::string next = next_password(line);
std::cout << "Current password: " << line << "; Next password: " << next
<< "\n";
}
return 0;
}

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#include <cassert>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
bool illegal_char(char c) { return c == 'i' || c == 'l' || c == 'o'; }
void pre_advance_password(std::string &s) {
std::string::size_type pos = 0;
while (pos < s.length() && !illegal_char(s[pos])) {
++pos;
}
if (pos == s.length()) {
return;
}
++s[pos++];
while (pos < s.length()) {
s[pos++] = 'a';
}
}
void advance_password(std::string &s) {
auto pos = s.length() - 1;
while (true) {
if (s[pos] == 'z') {
assert(pos != 0);
s[pos] = 'a';
pos -= 1;
} else {
++s[pos];
if (illegal_char(s[pos])) {
++s[pos];
}
return;
}
}
}
bool valid_password(std::string const &s) {
unsigned double_count = 0;
bool run = false;
char last2 = '\0';
char last = '\0';
for (auto c : s) {
if (c == last && last2 != c) {
++double_count;
} else if (c == last + 1 && c == last2 + 2) {
run = true;
}
last2 = last;
last = c;
}
return double_count >= 2 && run;
}
std::string next_password(std::string const &s) {
std::string result = s;
pre_advance_password(result);
do {
advance_password(result);
} while (!valid_password(result));
return result;
}
int main(int argc, char **argv) {
for (std::string line; std::getline(std::cin, line);) {
std::string next = next_password(line);
std::string next2 = next_password(next);
std::cout << "Current password: " << line << "; Next password: " << next
<< "; Subsequent password: " << next2 << "\n";
}
return 0;
}

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#include <cassert>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
int parse_numbers(std::string const &s) {
static const std::regex re("-?\\d+");
std::string left = s;
std::smatch m;
int acc = 0;
while (std::regex_search(left, m, re)) {
acc += std::stoi(m.str(0));
left = m.suffix();
}
return acc;
}
int main(int argc, char **argv) {
int acc = 0;
for (std::string line; std::getline(std::cin, line);) {
acc += parse_numbers(line);
}
std::cout << "Accumulated value: " << acc << "\n";
return 0;
}

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#include <cassert>
#include <cctype>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
int do_parse(std::string const &s, std::string::size_type &pos) {
int result = 0;
bool ignore = false;
while (pos < s.size()) {
if (s[pos] == '{') {
++pos;
result += do_parse(s, pos);
} else if (s[pos] == '[') {
++pos;
result += do_parse(s, pos);
} else if (s[pos] == '}') {
++pos;
return ignore ? 0 : result;
} else if (s[pos] == ']') {
++pos;
return result;
} else if (s[pos] == '"') {
++pos;
auto e = s.find('"', pos);
assert(e != std::string::npos);
std::string v = s.substr(pos, e - pos);
if (v == "red") {
ignore = true;
}
pos = e + 1;
} else if (std::isdigit(s[pos]) || s[pos] == '-') {
std::size_t len = 0;
result += std::stoi(s.substr(pos), &len);
pos += len;
} else {
assert(s[pos] == ',' || s[pos] == ':');
++pos;
}
}
return result;
}
int parse_numbers(std::string const &s) {
std::string::size_type pos = 0;
int result = do_parse(s, pos);
assert(pos == s.size());
return result;
}
int main(int argc, char **argv) {
int acc = 0;
for (std::string line; std::getline(std::cin, line);) {
acc += parse_numbers(line);
}
std::cout << "Accumulated value: " << acc << "\n";
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
struct Graph {
using Node = std::string;
using Weight = int;
using Nodes = std::set<Node>;
using NodeList = std::vector<Node>;
using Edge = std::pair<Node, Node>;
using EdgeWeights = std::map<Edge, Weight>;
void add_edge(std::string const &s) {
static const std::regex re(
"(\\w+) would (gain|lose) (\\d+) happiness units? "
"by sitting next to (\\w+).");
std::smatch m;
if (std::regex_search(s, m, re)) {
nodes_.insert(m.str(1));
nodes_.insert(m.str(4));
int delta = std::stoi(m.str(3));
if (m.str(2) == "lose") {
delta = -delta;
}
weights_.insert({{m.str(1), m.str(4)}, delta});
} else {
assert(false);
}
}
Weight max_happiness() const {
int max_happiness = INT_MIN;
NodeList nl(nodes_.begin(), nodes_.end());
std::sort(nl.begin(), nl.end());
do {
std::cout << "\r";
for (auto const &s : nl) {
std::cout << s << " ";
}
int h = happiness(nl);
std::cout << "Happiness = " << h << " ";
if (h > max_happiness) {
std::cout << "\n";
max_happiness = h;
}
} while (std::next_permutation(nl.begin(), nl.end()));
std::cout << "\n";
return max_happiness;
}
int happiness(NodeList const &nl) const {
int h = 0;
h += weights_.find(std::make_pair(nl[nl.size() - 1], nl[0]))->second;
h += weights_.find(std::make_pair(nl[0], nl[nl.size() - 1]))->second;
for (std::size_t off = 1; off < nl.size(); ++off) {
h += weights_.find(std::make_pair(nl[off - 1], nl[off]))->second;
h += weights_.find(std::make_pair(nl[off], nl[off - 1]))->second;
}
return h;
}
Nodes nodes_;
EdgeWeights weights_;
};
int main(int argc, char **argv) {
Graph g;
for (std::string line; std::getline(std::cin, line);) {
g.add_edge(line);
}
auto h = g.max_happiness();
std::cout << "Max happiness: " << h << "\n";
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
struct Graph {
Graph() { nodes_.insert("self"); }
using Node = std::string;
using Weight = int;
using Nodes = std::set<Node>;
using NodeList = std::vector<Node>;
using Edge = std::pair<Node, Node>;
using EdgeWeights = std::map<Edge, Weight>;
void add_edge(std::string const &s) {
static const std::regex re(
"(\\w+) would (gain|lose) (\\d+) happiness units? "
"by sitting next to (\\w+).");
std::smatch m;
if (std::regex_search(s, m, re)) {
nodes_.insert(m.str(1));
weights_.insert({{m.str(1), "self"}, 0});
weights_.insert({{"self", m.str(1)}, 0});
nodes_.insert(m.str(4));
int delta = std::stoi(m.str(3));
if (m.str(2) == "lose") {
delta = -delta;
}
weights_.insert({{m.str(1), m.str(4)}, delta});
} else {
assert(false);
}
}
Weight max_happiness() const {
int max_happiness = INT_MIN;
NodeList nl(nodes_.begin(), nodes_.end());
std::sort(nl.begin(), nl.end());
do {
std::cout << "\r";
for (auto const &s : nl) {
std::cout << s << " ";
}
int h = happiness(nl);
std::cout << "Happiness = " << h << " ";
if (h > max_happiness) {
std::cout << "\n";
max_happiness = h;
}
} while (std::next_permutation(nl.begin(), nl.end()));
std::cout << "\n";
return max_happiness;
}
int happiness(NodeList const &nl) const {
int h = 0;
h += weights_.find(std::make_pair(nl[nl.size() - 1], nl[0]))->second;
h += weights_.find(std::make_pair(nl[0], nl[nl.size() - 1]))->second;
for (std::size_t off = 1; off < nl.size(); ++off) {
h += weights_.find(std::make_pair(nl[off - 1], nl[off]))->second;
h += weights_.find(std::make_pair(nl[off], nl[off - 1]))->second;
}
return h;
}
Nodes nodes_;
EdgeWeights weights_;
};
int main(int argc, char **argv) {
Graph g;
for (std::string line; std::getline(std::cin, line);) {
g.add_edge(line);
}
auto h = g.max_happiness();
std::cout << "Max happiness: " << h << "\n";
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
using Distance = unsigned long;
Distance distance(std::string const &s, unsigned t) {
static const std::regex re("(\\w+) can fly (\\d+) km/s for (\\d+) seconds?, "
"but then must rest for (\\d+) seconds?.");
std::smatch m;
if (std::regex_search(s, m, re)) {
unsigned fly_speed = std::stoul(m.str(2));
unsigned fly_time = std::stoul(m.str(3));
unsigned rest_time = std::stoul(m.str(4));
// Period and number of them
unsigned period = fly_time + rest_time;
unsigned periods = t / period;
// How far did we fly in the complete periods.
Distance result = (fly_speed * fly_time * periods);
// And the remainder distance
t -= periods * period;
t = std::min(t, fly_time);
result += t * fly_speed;
std::cout << m.str(1) << "(" << fly_speed << ", " << fly_time << ", "
<< rest_time << ") = " << result << "\n";
return result;
} else {
assert(false);
}
}
int main(int argc, char **argv) {
Distance max_d = 0;
for (std::string line; std::getline(std::cin, line);) {
max_d = std::max(max_d, distance(line, 2503));
}
std::cout << "Max distance: " << max_d << "\n";
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
using Distance = unsigned long;
using Time = unsigned long;
using Speed = unsigned long;
struct Reindeer;
using ReindeerSet = std::set<Reindeer>;
struct Reindeer {
Reindeer(std::string const &s) {
static const std::regex re(
"(\\w+) can fly (\\d+) km/s for (\\d+) seconds?, "
"but then must rest for (\\d+) seconds?.");
std::smatch m;
if (std::regex_search(s, m, re)) {
name_ = m.str(1);
speed_ = std::stoul(m.str(2));
fly_time_ = std::stoul(m.str(3));
rest_time_ = std::stoul(m.str(4));
} else {
assert(false);
}
}
bool operator<(Reindeer const &rhs) const noexcept {
return name_ < rhs.name_;
}
std::string const &name() const { return name_; }
Distance distance(Time t) const { // Period and number of them
Time period = fly_time_ + rest_time_;
unsigned periods = t / period;
// How far did we fly in the complete periods.
Distance result = (speed_ * fly_time_ * periods);
// And the remainder distance
t -= periods * period;
t = std::min(t, fly_time_);
result += t * speed_;
return result;
}
std::string name_;
Speed speed_;
Time fly_time_;
Time rest_time_;
};
int main(int argc, char **argv) {
ReindeerSet reindeer;
for (std::string line; std::getline(std::cin, line);) {
reindeer.insert(Reindeer(line));
}
std::map<std::string, unsigned> score;
for (unsigned t = 1; t < 2504; ++t) {
auto it =
std::max_element(reindeer.begin(), reindeer.end(),
[t](Reindeer const &lhs, Reindeer const &rhs) -> bool {
return lhs.distance(t) < rhs.distance(t);
});
auto [iit, success] = score.insert({it->name(), 1});
if (!success) {
iit->second++;
}
}
auto it = std::max_element(score.begin(), score.end(),
[](auto const &lhs, auto const &rhs) -> bool {
return lhs.second < rhs.second;
});
std::cout << it->first << " wins with a score of " << it->second << "\n";
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
using Score = long;
using PropertyMap = std::map<std::string, Score>;
struct Ingredient {
explicit Ingredient(std::string const &s) {
auto colon = s.find(':');
name_ = s.substr(0, colon);
auto suffix = s.substr(colon + 1);
std::cout << name_ << "\n";
while (!suffix.empty()) {
static const std::regex re(",? (\\w+) (-?\\d+)");
std::smatch m;
if (std::regex_search(suffix, m, re)) {
auto [it, success] =
properties_.insert({m.str(1), std::stol(m.str(2))});
assert(success);
std::cout << " " << it->first << ": " << it->second << "\n";
suffix = m.suffix();
} else {
assert(false);
}
}
}
bool operator<(Ingredient const &rhs) const noexcept {
return name_ < rhs.name_;
}
std::string const &name() const noexcept { return name_; }
void update_score(Score amount, PropertyMap &totals) const {
for (auto const &kv : properties_) {
if (kv.first == "calories") {
continue;
}
auto [it, success] = totals.insert({kv.first, amount * kv.second});
if (!success) {
it->second += amount * kv.second;
}
}
}
private:
std::string name_;
PropertyMap properties_;
};
struct Ingredients {
void add_ingredient(std::string const &s) {
ingredients_.push_back(Ingredient(s));
}
Score best_combination(Score amount) const {
PropertyMap totals;
return best_combination(amount, ingredients_.begin(), 0UL, totals);
}
private:
Score best_combination(Score amount,
std::vector<Ingredient>::const_iterator it,
Score best_score, PropertyMap &totals) const {
it->update_score(amount, totals);
auto it2 = it;
++it2;
if (it2 == ingredients_.end()) {
auto score = calculate_score(totals);
best_score = std::max(best_score, score);
it->update_score(-amount, totals);
return best_score;
}
for (auto allocation = amount - 1; allocation > 0; --allocation) {
it->update_score(-1, totals);
best_score =
std::max(best_score, best_combination(amount - allocation, it2,
best_score, totals));
}
it->update_score(-1, totals);
return best_score;
}
Score calculate_score(PropertyMap const &totals) const {
Score r = 1;
for (auto const &kv : totals) {
if (kv.first == "calories") {
continue;
}
if (kv.second < 0) {
return 0;
}
r *= kv.second;
}
return r;
}
std::vector<Ingredient> ingredients_;
};
int main(int argc, char **argv) {
Ingredients ingredients;
std::string line;
while (std::getline(std::cin, line)) {
ingredients.add_ingredient(line);
}
auto r = ingredients.best_combination(100);
std::cout << "Solution: " << r << "\n";
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
using Score = long;
using PropertyMap = std::map<std::string, Score>;
struct Ingredient {
explicit Ingredient(std::string const &s) {
auto colon = s.find(':');
name_ = s.substr(0, colon);
auto suffix = s.substr(colon + 1);
std::cout << name_ << "\n";
while (!suffix.empty()) {
static const std::regex re(",? (\\w+) (-?\\d+)");
std::smatch m;
if (std::regex_search(suffix, m, re)) {
auto [it, success] =
properties_.insert({m.str(1), std::stol(m.str(2))});
assert(success);
std::cout << " " << it->first << ": " << it->second << "\n";
suffix = m.suffix();
} else {
assert(false);
}
}
}
bool operator<(Ingredient const &rhs) const noexcept {
return name_ < rhs.name_;
}
std::string const &name() const noexcept { return name_; }
void update_score(Score amount, PropertyMap &totals) const {
for (auto const &kv : properties_) {
auto [it, success] = totals.insert({kv.first, amount * kv.second});
if (!success) {
it->second += amount * kv.second;
}
}
}
private:
std::string name_;
PropertyMap properties_;
};
struct Ingredients {
void add_ingredient(std::string const &s) {
ingredients_.push_back(Ingredient(s));
}
Score best_combination(Score amount) const {
PropertyMap totals;
return best_combination(amount, ingredients_.begin(), 0UL, totals);
}
private:
Score best_combination(Score amount,
std::vector<Ingredient>::const_iterator it,
Score best_score, PropertyMap &totals) const {
it->update_score(amount, totals);
auto it2 = it;
++it2;
if (it2 == ingredients_.end()) {
auto score = calculate_score(totals);
best_score = std::max(best_score, score);
it->update_score(-amount, totals);
return best_score;
}
for (auto allocation = amount - 1; allocation > 0; --allocation) {
it->update_score(-1, totals);
best_score =
std::max(best_score, best_combination(amount - allocation, it2,
best_score, totals));
}
it->update_score(-1, totals);
return best_score;
}
Score calculate_score(PropertyMap const &totals) const {
Score r = 1;
Score calories = 0;
for (auto const &kv : totals) {
if (kv.first == "calories") {
calories += kv.second;
continue;
}
if (kv.second < 0) {
return 0;
}
r *= kv.second;
}
return calories != 500 ? -1 : r;
}
std::vector<Ingredient> ingredients_;
};
int main(int argc, char **argv) {
Ingredients ingredients;
std::string line;
while (std::getline(std::cin, line)) {
ingredients.add_ingredient(line);
}
auto r = ingredients.best_combination(100);
std::cout << "Solution: " << r << "\n";
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
using InfoMap = std::map<std::string, unsigned long>;
static const InfoMap the_real_aunt_sue({{"children", 3},
{"cats", 7},
{"samoyeds", 2},
{"pomeranians", 3},
{"akitas", 0},
{"vizslas", 0},
{"goldfish", 5},
{"trees", 3},
{"cars", 2},
{"perfumes", 1}});
bool matches_sue(std::string const &s) {
assert(s.substr(0, 4) == "Sue ");
std::size_t pos = 4;
std::size_t len = 0;
unsigned long id = std::stoul(s.substr(4), &len);
std::cout << "Sue " << id << ": ";
pos += len;
assert(s[pos] == ':');
++pos;
while (pos < s.size()) {
if (s[pos] == ' ' || s[pos] == ',') {
++pos;
} else {
auto colon = s.find(':', pos);
assert(colon != std::string::npos);
std::string name = s.substr(pos, colon - pos);
pos = colon + 1;
while (pos < s.size() && s[pos] == ' ') {
++pos;
}
auto amount = std::stoul(s.substr(pos), &len);
pos += len;
auto it = the_real_aunt_sue.find(name);
std::cout << " " << name << "=" << amount;
assert(it != the_real_aunt_sue.end());
if (it->second != amount) {
std::cout << " (NO!)\n";
return false;
}
}
}
std::cout << "(YES!)\n";
return true;
}
int main(int argc, char **argv) {
std::string line;
while (std::getline(std::cin, line)) {
if (matches_sue(line)) {
std::cout << "MATCH: " << line << "\n";
return 0;
}
}
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
using Comparison = std::function<bool(unsigned long, unsigned long)>;
using Info = std::pair<unsigned long, Comparison>;
using InfoMap = std::map<std::string, Info>;
bool Equality(unsigned long a, unsigned long b) { return a == b; }
bool GreaterThan(unsigned long a, unsigned long b) { return a > b; }
bool LessThan(unsigned long a, unsigned long b) { return a < b; }
static const InfoMap the_real_aunt_sue({{"children", {3, Equality}},
{"cats", {7, GreaterThan}},
{"samoyeds", {2, Equality}},
{"pomeranians", {3, LessThan}},
{"akitas", {0, Equality}},
{"vizslas", {0, Equality}},
{"goldfish", {5, LessThan}},
{"trees", {3, GreaterThan}},
{"cars", {2, Equality}},
{"perfumes", {1, Equality}}});
bool matches_sue(std::string const &s) {
assert(s.substr(0, 4) == "Sue ");
std::size_t pos = 4;
std::size_t len = 0;
unsigned long id = std::stoul(s.substr(4), &len);
std::cout << "Sue " << id << ": ";
pos += len;
assert(s[pos] == ':');
++pos;
while (pos < s.size()) {
if (s[pos] == ' ' || s[pos] == ',') {
++pos;
} else {
auto colon = s.find(':', pos);
assert(colon != std::string::npos);
std::string name = s.substr(pos, colon - pos);
pos = colon + 1;
while (pos < s.size() && s[pos] == ' ') {
++pos;
}
auto amount = std::stoul(s.substr(pos), &len);
pos += len;
auto it = the_real_aunt_sue.find(name);
std::cout << " " << name << "=" << amount;
assert(it != the_real_aunt_sue.end());
if (!it->second.second(amount, it->second.first)) {
std::cout << " (NO!)\n";
return false;
}
}
}
std::cout << "(YES!)\n";
return true;
}
int main(int argc, char **argv) {
std::string line;
while (std::getline(std::cin, line)) {
if (matches_sue(line)) {
std::cout << "MATCH: " << line << "\n";
return 0;
}
}
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
using Quantity = unsigned long;
constexpr Quantity total = 150;
using Quantities = std::vector<Quantity>;
unsigned count_combinations(Quantities::const_iterator it,
Quantities::const_iterator end, Quantity amount,
unsigned depth = 0) {
// We have no room for this container
std::cout << std::string(depth, ' ') << *it << ": " << amount << "\n";
if (amount < *it) {
return 0;
}
// Matched
if (amount == *it) {
return 1;
}
amount -= *it;
auto result = 0;
while (++it != end) {
result += count_combinations(it, end, amount, depth + 2);
}
return result;
}
unsigned count_combinations(Quantities const &containers) {
unsigned result = 0;
for (auto it = containers.begin(); it != containers.end(); ++it) {
result += count_combinations(it, containers.end(), total);
}
return result;
}
int main(int argc, char **argv) {
std::string line;
Quantities containers;
while (std::getline(std::cin, line)) {
containers.push_back(std::stoul(line));
}
// Sort containers into reverse order
std::sort(containers.begin(), containers.end());
std::reverse(containers.begin(), containers.end());
unsigned result = count_combinations(containers);
std::cout << "Solution: " << result << "\n";
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <variant>
using Quantity = unsigned long;
constexpr Quantity total = 150;
using Quantities = std::vector<Quantity>;
template <typename Fn1, typename Fn2>
unsigned count_combinations(Quantities::const_iterator it,
Quantities::const_iterator end, Quantity amount,
unsigned depth, Fn1 base_result,
unsigned init_addend, Fn2 adder) {
// We have no room for this container
std::cout << std::string(depth, ' ') << *it << ": " << amount;
if (amount < *it) {
std::cout << " - Not big enough.\n";
return init_addend;
}
// Matched
if (amount == *it) {
std::cout << " - Filled - result = " << base_result(depth) << "\n";
return base_result(depth);
}
std::cout << " - Recursing: initial result = " << init_addend << "\n";
amount -= *it;
auto result = init_addend;
while (++it != end) {
auto child_score = count_combinations(it, end, amount, depth + 1,
base_result, init_addend, adder);
result = adder(result, child_score);
}
std::cout << std::string(depth, ' ') << "Recursion result: " << result
<< "\n";
return result;
}
template <typename Fn1, typename Fn2>
unsigned count_combinations(Quantities const &containers, Quantity amount,
Fn1 base_result, unsigned init_addend, Fn2 adder) {
unsigned result = init_addend;
for (auto it = containers.begin(); it != containers.end(); ++it) {
result = adder(result, count_combinations(it, containers.end(), total, 0,
base_result, init_addend, adder));
}
return result;
}
unsigned find_shortest_combination(Quantities const &containers) {
return count_combinations(
containers, total, [](unsigned depth) { return depth; }, UINT_MAX,
[](unsigned current, unsigned child_score) {
return std::min(current, child_score);
});
}
unsigned count_min_length_combinations(Quantities const &containers,
unsigned expected_depth) {
return count_combinations(
containers, total,
[expected_depth](unsigned depth) { return depth == expected_depth; }, 0,
[](unsigned current, unsigned child_score) {
return current + child_score;
});
}
int main(int argc, char **argv) {
std::string line;
Quantities containers;
while (std::getline(std::cin, line)) {
containers.push_back(std::stoul(line));
}
// Sort containers into reverse order
std::sort(containers.begin(), containers.end());
std::reverse(containers.begin(), containers.end());
unsigned short_depth = find_shortest_combination(containers);
std::cout << "Shortest length result: " << short_depth << "\n";
unsigned result = count_min_length_combinations(containers, short_depth);
std::cout << "Solution: " << result << "\n";
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <numeric>
#include <regex>
#include <set>
#include <string>
#include <variant>
struct ConwayState {
ConwayState(std::size_t width, std::string const &s)
: width_(width), state_(width_ * width_, 0) {
assert(s.size() == width_ * width_);
for (std::size_t i = 0; i < state_.size(); ++i) {
if (s[i] == '#') {
flip(i);
}
}
}
ConwayState next_state() const {
ConwayState next(*this);
for (std::size_t i = 0; i < state_.size(); ++i) {
if (state_[i] == (2 | active_) || state_[i] == (3 | active_)) {
continue;
}
if (state_[i] == 3 || (state_[i] & active_) != 0) {
next.flip(i);
}
}
return next;
}
std::size_t num_active() const {
return std::accumulate(state_.begin(), state_.end(), std::size_t(0),
[](std::size_t current, unsigned char info) {
return current + ((info & active_) != 0);
});
}
private:
void flip(std::size_t idx) {
state_[idx] = state_[idx] ^ active_;
int delta = ((state_[idx] & active_) == active_) ? 1 : -1;
std::size_t row = idx / width_;
std::size_t col = idx % width_;
for (std::size_t r = std::max(std::size_t(1), row) - 1;
r < std::min(width_, row + 2); ++r) {
for (std::size_t c = std::max(std::size_t(1), col) - 1;
c < std::min(width_, col + 2); ++c) {
if (r == row && c == col) {
continue;
}
state_[r * width_ + c] = state_[r * width_ + c] + delta;
}
}
}
std::size_t width_;
std::vector<unsigned char> state_;
static constexpr unsigned char active_ = 0x80;
friend std::ostream &operator<<(std::ostream &os, ConwayState const &state);
};
std::ostream &operator<<(std::ostream &os, ConwayState const &state) {
std::size_t c = 0;
for (auto s : state.state_) {
os << (s & ConwayState::active_ ? '#' : '.');
os << (s & ~ConwayState::active_);
++c;
if (c == state.width_) {
os << '\n';
c = 0;
}
}
return os;
}
int main(int argc, char **argv) {
std::string line;
std::size_t width = 0;
std::string init;
while (std::getline(std::cin, line)) {
if (width == 0) {
width = line.size();
}
assert(width == line.size());
init += line;
}
ConwayState conway(width, init);
for (unsigned i = 0; i < 100; ++i) {
conway = conway.next_state();
}
std::cout << "Solution: " << conway.num_active() << "\n";
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <numeric>
#include <regex>
#include <set>
#include <string>
#include <variant>
struct ConwayState {
ConwayState(std::size_t width, std::string const &s)
: width_(width), state_(width_ * width_, 0) {
assert(s.size() == width_ * width_);
flip(0);
flip(width_ - 1);
flip(width_ * (width_ - 1));
flip(width_ * width_ - 1);
for (std::size_t i = 0; i < state_.size(); ++i) {
if (s[i] == '#') {
flip(i);
}
}
}
ConwayState next_state() const {
ConwayState next(*this);
for (std::size_t i = 0; i < state_.size(); ++i) {
if (i == 0 || i == width_ - 1 || i == width_ * (width_ - 1) ||
i == width_ * width_ - 1) {
continue;
}
if (state_[i] == (2 | active_) || state_[i] == (3 | active_)) {
continue;
}
if (state_[i] == 3 || (state_[i] & active_) != 0) {
next.flip(i);
}
}
return next;
}
std::size_t num_active() const {
return std::accumulate(state_.begin(), state_.end(), std::size_t(0),
[](std::size_t current, unsigned char info) {
return current + ((info & active_) != 0);
});
}
private:
void flip(std::size_t idx) {
state_[idx] = state_[idx] ^ active_;
int delta = ((state_[idx] & active_) == active_) ? 1 : -1;
std::size_t row = idx / width_;
std::size_t col = idx % width_;
for (std::size_t r = std::max(std::size_t(1), row) - 1;
r < std::min(width_, row + 2); ++r) {
for (std::size_t c = std::max(std::size_t(1), col) - 1;
c < std::min(width_, col + 2); ++c) {
if (r == row && c == col) {
continue;
}
state_[r * width_ + c] = state_[r * width_ + c] + delta;
}
}
}
std::size_t width_;
std::vector<unsigned char> state_;
static constexpr unsigned char active_ = 0x80;
friend std::ostream &operator<<(std::ostream &os, ConwayState const &state);
};
std::ostream &operator<<(std::ostream &os, ConwayState const &state) {
std::size_t c = 0;
for (auto s : state.state_) {
os << (s & ConwayState::active_ ? '#' : '.');
os << (s & ~ConwayState::active_);
++c;
if (c == state.width_) {
os << '\n';
c = 0;
}
}
return os;
}
int main(int argc, char **argv) {
std::string line;
std::size_t width = 0;
std::string init;
while (std::getline(std::cin, line)) {
if (width == 0) {
width = line.size();
}
assert(width == line.size());
init += line;
}
ConwayState conway(width, init);
for (unsigned i = 0; i < 100; ++i) {
conway = conway.next_state();
}
std::cout << "Solution: " << conway.num_active() << "\n";
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <numeric>
#include <regex>
#include <set>
#include <string>
#include <variant>
int main(int argc, char **argv) {
std::multimap<std::string, std::string> replacements;
bool collecting_replacements = true;
std::string line;
while (std::getline(std::cin, line)) {
if (line.empty()) {
collecting_replacements = false;
} else if (collecting_replacements) {
auto sep = line.find(" => ");
replacements.insert({line.substr(0, sep), line.substr(sep + 4)});
} else {
std::set<std::string> new_molecules;
for (unsigned pos = 0; pos < line.size(); ++pos) {
auto [it, ite] = replacements.equal_range(line.substr(pos, 1));
while (it != ite) {
new_molecules.insert(line.substr(0, pos) + it->second +
line.substr(pos + 1));
++it;
}
if (pos < line.size() - 1) {
auto [it, ite] = replacements.equal_range(line.substr(pos, 2));
while (it != ite) {
new_molecules.insert(line.substr(0, pos) + it->second +
line.substr(pos + 2));
++it;
}
}
}
std::cout << line << "\n";
std::cout << "Solution: " << new_molecules.size() << "\n";
}
}
return 0;
}

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#include <cassert>
#include <cctype>
#include <climits>
#include <functional>
#include <iostream>
#include <map>
#include <numeric>
#include <random>
#include <regex>
#include <set>
#include <string>
#include <unordered_map>
#include <unordered_set>
#include <variant>
template <typename Map>
std::size_t dedup(Map const &replacements, std::string &molecule) {
std::size_t steps = 0;
for (auto const &kv : replacements) {
if (kv.first != kv.second + kv.second) {
continue;
}
std::size_t pos = std::string::npos;
do {
pos = molecule.find(kv.first);
if (pos != std::string::npos) {
molecule = molecule.substr(0, pos) + kv.second +
molecule.substr(pos + kv.first.size());
++steps;
}
} while (pos != std::string::npos);
}
return steps;
}
#if 0
std::size_t
simple_find(std::unordered_map<std::string, std::string> const &replacements,
std::string &molecule) {
std::size_t steps = 0;
bool changed = true;
while (!molecule.empty() && molecule != "e" && changed) {
changed = false;
for (auto const &kv : replacements) {
std::size_t pos = 0;
while (pos != std::string::npos) {
pos = molecule.find(kv.first, pos);
if (pos != std::string::npos) {
auto nm = molecule.substr(0, pos) + kv.second +
molecule.substr(pos + kv.first.size());
bool good = true;
for (auto const &kv2 : replacements) {
auto left =
std::max(kv2.first.size() - 1, pos) + 1 - kv2.first.size();
if (nm.substr(left, kv2.first.size() * 2 + kv.second.size() - 2)
.find(kv2.first) != std::string::npos) {
good = false;
break;
}
}
if (good) {
++steps;
// std::cout << "Step: " << steps << ": " << molecule << " => " <<
// nm
// << "\n";
molecule = nm;
changed = true;
}
++pos;
}
}
}
}
return steps;
}
std::size_t
find_molecule(std::unordered_map<std::string, std::string> const &replacements,
std::string const &m) {
std::string molecule = m;
std::size_t steps = 0;
steps += dedup(replacements, molecule);
steps += simple_find(replacements, molecule);
std::unordered_map<std::string, std::size_t> current_molecules = {
{molecule, steps}};
while (!current_molecules.empty() &&
current_molecules.find("e") == current_molecules.end()) {
std::unordered_map<std::string, std::size_t> new_molecules;
std::size_t mi = 0;
for (auto const &m : current_molecules) {
++mi;
std::string molecule = m.first;
std::size_t steps = m.second;
++steps;
for (auto const &kv : replacements) {
std::size_t pos = 0;
while (pos != std::string::npos) {
pos = molecule.find(kv.first, pos);
if (pos != std::string::npos) {
bool good = false;
auto nm = molecule.substr(0, pos) + kv.second +
molecule.substr(pos + kv.first.size());
for (auto const &kv2 : replacements) {
auto left = std::max(kv2.first.size(), pos) - kv2.first.size();
if (nm.substr(left, kv2.first.size() * 2 + kv.second.size())
.find(kv2.first) != std::string::npos) {
good = true;
break;
}
}
if (good) {
auto ns = steps;
ns += dedup(replacements, nm);
ns += simple_find(replacements, nm);
std::cout << '\r' << steps << ": " << mi << " " << kv.first
<< " => "
<< kv.second; //<< " ==> "
// << nm << "\n";
auto [it, success] = new_molecules.insert({nm, ns});
if (!success) {
it->second = std::min(it->second, ns);
}
}
++pos;
}
}
}
}
current_molecules = std::move(new_molecules);
std::cout << "\nStep " << 1000000 << " : " << current_molecules.size()
<< " modulecules.\n"
<< std::flush;
}
std::cout << "\n";
return current_molecules.find("e")->second;
}
#endif
template <typename Map>
bool is_good_replacement(Map const &replacements, std::string const &nm,
std::size_t pos, std::size_t replace_len) {
for (auto const &kv : replacements) {
auto left = std::max(kv.first.size(), pos) - kv.first.size();
if (nm.substr(left, kv.first.size() * 2 + replace_len).find(kv.first) !=
std::string::npos) {
return true;
}
}
return false;
}
template <typename Map>
std::size_t find_molecule(Map &replacements, std::string const &molecule) {
std::random_device rd;
std::mt19937 g(rd());
while (true) {
std::string m = molecule;
bool changed = true;
std::shuffle(replacements.begin(), replacements.end(), g);
std::size_t steps = 0;
do {
changed = false;
for (auto const &kv : replacements) {
auto pos = m.find(kv.first);
if (pos != std::string::npos) {
m = m.substr(0, pos) + kv.second + m.substr(pos + kv.first.length());
std::cout << "\r" << steps << " ";
++steps;
changed = true;
if (m == "e") {
std::cout << '\n';
return steps;
}
}
}
std::cout << '\n';
} while (changed);
}
}
int main(int argc, char **argv) {
std::vector<std::pair<std::string, std::string>> replacements;
bool collecting_replacements = true;
std::string line;
while (std::getline(std::cin, line)) {
if (line.empty()) {
collecting_replacements = false;
} else if (collecting_replacements) {
auto sep = line.find(" => ");
replacements.push_back({line.substr(sep + 4), line.substr(0, sep)});
} else {
std::cout << line << "\n";
auto time = find_molecule(replacements, line);
std::cout << "Solution: " << time << "\n";
}
}
return 0;
}

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#include <string>
#include <iostream>
#include <cstdlib>
int main() {
std::string line;
std::getline(std::cin, line);
auto target{std::stoul(line)};
/* This is a really stupid way to do this in terms of effort, but it produces the right answer and doesn't involve
* thinking too much:
*
* n is the current house we're at.
*/
for (auto n{2UL}; true; ++n) {
auto amt{0UL};
/* Find the number of presents delivered to house `n`. We do this by walking through all numbers <= sqrt(n) and
* seeing if they are a factor. If so we add presents for that number (i) and also (n/i), being careful not to
* double count for square roots. This reduces the amount of work we have to do significantly.
*/
for (auto i{1UL}; i <= (n / i); ++i) {
if (n % i == 0) {
amt += i * 10;
if (i != n / i) {
amt += (n / i) * 10;
}
}
}
if (amt >= target) {
std::cout << "Target: " << target << " met at: " << n << " with amount: " << amt << '\n';
return EXIT_SUCCESS;
}
}
return EXIT_FAILURE;
}

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#include <string>
#include <iostream>
#include <cstdlib>
int main() {
std::string line;
std::getline(std::cin, line);
auto target{std::stoul(line)};
/* This is a really stupid way to do this in terms of effort, but it produces the right answer and doesn't involve
* thinking too much:
*
* n is the current house we're at.
*/
for (auto n{2UL}; true; ++n) {
auto amt{0UL};
/* Find the number of presents delivered to house `n`. We do this by walking through all numbers <= sqrt(n) and
* seeing if they are a factor. If so we add presents for that number (i) and also (n/i), being careful not to
* double count for square roots. This reduces the amount of work we have to do significantly.
*
* For the second part we also check to ensure we've not at the 51st delivery or greater for this elf.
*/
for (auto i{1UL}; i <= (n / i); ++i) {
if (n % i == 0) {
auto i2{n / i};
if (i2 <= 50) {
amt += i * 11;
}
if (i <= 50 && i != i2) {
amt += i2 * 11;
}
}
}
if (amt >= target) {
std::cout << "Target: " << target << " met at: " << n << " with amount: " << amt << '\n';
return EXIT_SUCCESS;
}
}
return EXIT_FAILURE;
}

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#include <string>
#include <vector>
#include <iostream>
#include <cstdlib>
#include <numeric>
using namespace std::string_literals;
struct Item {
std::string name_;
unsigned long cost_;
unsigned long damage_;
unsigned long armour_;
bool operator==(Item const& rhs) const { return name_ == rhs.name_; }
};
struct Person {
Person(unsigned long hp, unsigned long damage, unsigned long armour) : name_("Enemy"), hp_(hp),
cost_(std::numeric_limits<unsigned>::max()),
damage_(damage),
armour_(armour) {}
Person(Item const &weapon, Item const &armour, Item const &left_ring, Item const &right_ring) :
name_("Player: "s + weapon.name_ + ", "s + armour.name_ + ", "s + left_ring.name_ + ", " +
right_ring.name_),
hp_(100),
cost_(weapon.cost_ + armour.cost_ + left_ring.cost_ + right_ring.cost_),
damage_(weapon.damage_ + armour.damage_ + left_ring.damage_ + right_ring.damage_),
armour_(weapon.armour_ + armour.armour_ + left_ring.armour_ + right_ring.armour_) {}
unsigned get_attacked(Person const &attacker) {
auto damage{(attacker.damage_ > armour_) ? attacker.damage_ - armour_ : 1};
hp_ = (hp_ > damage) ? hp_ - damage : 0;
return hp_;
}
std::string name_;
unsigned long hp_;
unsigned long cost_;
unsigned long damage_;
unsigned long armour_;
};
unsigned long get_value(std::string const &begin) {
std::string line;
if (!std::getline(std::cin, line)) {
std::cerr << "Missing line in input\n";
std::exit(1);
}
if (line.substr(0, begin.length()) != begin) {
std::cerr << "Line doesn't begin with: " << begin << '\n';
std::exit(1);
}
return std::stoul(line.substr(begin.length()));
}
bool me_beats_enemy(Person me, Person enemy) {
while (true) {
enemy.get_attacked(me);
if (enemy.hp_ == 0) { return true; }
me.get_attacked(enemy);
if (me.hp_ == 0) { return false; }
}
}
int main() {
const std::string hp_begin{"Hit Points: "};
const std::string d_begin{"Damage: "};
const std::string a_begin{"Armor: "};
const std::vector<Item> weapons{
{"Dagger", 8, 4, 0},
{"Shortsword", 10, 5, 0},
{"Warhammer", 25, 6, 0},
{"Longsword", 40, 7, 0},
{"Greataxe", 74, 8, 0},
};
const std::vector<Item> armours{
{"Nothing", 0, 0, 0},
{"Leather", 13, 0, 1},
{"Chainmail", 31, 0, 2},
{"Splintmail", 53, 0, 3},
{"Bandedmail", 75, 0, 4},
{"Platedmail", 102, 0, 5},
};
const std::vector<Item> rings{
{"Empty", 0, 0, 0},
{"Damage +1", 25, 1, 0},
{"Damage +2", 50, 2, 0},
{"Damage +3", 100, 3, 0},
{"Defense +1", 20, 0, 1},
{"Defense +2", 40, 0, 2},
{"Defense +3", 80, 0, 3},
};
auto enemy_hp{get_value(hp_begin)};
auto enemy_damage{get_value(d_begin)};
auto enemy_armour{get_value(a_begin)};
Person best_result{0, 0, 0};
Person enemy{enemy_hp, enemy_damage, enemy_armour};
for (auto const &weapon: weapons) {
if (weapon.cost_ > best_result.cost_) { continue; }
for (auto const &armour: armours) {
if (weapon.cost_ + armour.cost_ > best_result.cost_) { continue; }
for (auto const &left_ring: rings) {
if (weapon.cost_ + armour.cost_ + left_ring.cost_ > best_result.cost_) { continue; }
for (auto const &right_ring: rings) {
if (weapon.cost_ + armour.cost_ + left_ring.cost_ + right_ring.cost_ >
best_result.cost_) { continue; }
if (left_ring == right_ring) continue;
Person me{weapon, armour, left_ring, right_ring};
if (me_beats_enemy(me, enemy) && me.cost_ < best_result.cost_) {
best_result = me;
}
}
}
}
}
std::cout << "Best person: " << best_result.name_ << " at cost of " << best_result.cost_ << '\n';
}

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#include <string>
#include <vector>
#include <iostream>
#include <cstdlib>
#include <numeric>
using namespace std::string_literals;
struct Item {
std::string name_;
unsigned long cost_;
unsigned long damage_;
unsigned long armour_;
bool operator==(Item const& rhs) const { return name_ == rhs.name_; }
};
struct Person {
Person(unsigned long hp, unsigned long damage, unsigned long armour) : name_("Enemy"), hp_(hp),
cost_(std::numeric_limits<unsigned>::max()),
damage_(damage),
armour_(armour) {}
Person(Item const &weapon, Item const &armour, Item const &left_ring, Item const &right_ring) :
name_("Player: "s + weapon.name_ + ", "s + armour.name_ + ", "s + left_ring.name_ + ", " +
right_ring.name_),
hp_(100),
cost_(weapon.cost_ + armour.cost_ + left_ring.cost_ + right_ring.cost_),
damage_(weapon.damage_ + armour.damage_ + left_ring.damage_ + right_ring.damage_),
armour_(weapon.armour_ + armour.armour_ + left_ring.armour_ + right_ring.armour_) {}
unsigned get_attacked(Person const &attacker) {
auto damage{(attacker.damage_ > armour_) ? attacker.damage_ - armour_ : 1};
hp_ = (hp_ > damage) ? hp_ - damage : 0;
return hp_;
}
std::string name_;
unsigned long hp_;
unsigned long cost_;
unsigned long damage_;
unsigned long armour_;
};
unsigned long get_value(std::string const &begin) {
std::string line;
if (!std::getline(std::cin, line)) {
std::cerr << "Missing line in input\n";
std::exit(1);
}
if (line.substr(0, begin.length()) != begin) {
std::cerr << "Line doesn't begin with: " << begin << '\n';
std::exit(1);
}
return std::stoul(line.substr(begin.length()));
}
bool me_beats_enemy(Person me, Person enemy) {
while (true) {
enemy.get_attacked(me);
if (enemy.hp_ == 0) { return true; }
me.get_attacked(enemy);
if (me.hp_ == 0) { return false; }
}
}
int main() {
const std::string hp_begin{"Hit Points: "};
const std::string d_begin{"Damage: "};
const std::string a_begin{"Armor: "};
const std::vector<Item> weapons{
{"Dagger", 8, 4, 0},
{"Shortsword", 10, 5, 0},
{"Warhammer", 25, 6, 0},
{"Longsword", 40, 7, 0},
{"Greataxe", 74, 8, 0},
};
const std::vector<Item> armours{
{"Nothing", 0, 0, 0},
{"Leather", 13, 0, 1},
{"Chainmail", 31, 0, 2},
{"Splintmail", 53, 0, 3},
{"Bandedmail", 75, 0, 4},
{"Platedmail", 102, 0, 5},
};
const std::vector<Item> rings{
{"Empty", 0, 0, 0},
{"Damage +1", 25, 1, 0},
{"Damage +2", 50, 2, 0},
{"Damage +3", 100, 3, 0},
{"Defense +1", 20, 0, 1},
{"Defense +2", 40, 0, 2},
{"Defense +3", 80, 0, 3},
};
auto enemy_hp{get_value(hp_begin)};
auto enemy_damage{get_value(d_begin)};
auto enemy_armour{get_value(a_begin)};
Person best_result{0, 0, 0};
Person worst_result{0, 0, 0};
worst_result.cost_ = 0;
Person enemy{enemy_hp, enemy_damage, enemy_armour};
for (auto const &weapon: weapons) {
for (auto const &armour: armours) {
for (auto const &left_ring: rings) {
for (auto const &right_ring: rings) {
if (left_ring == right_ring) continue;
Person me{weapon, armour, left_ring, right_ring};
if (me_beats_enemy(me, enemy)) {
if (me.cost_ < best_result.cost_) {
best_result = me;
}
}
else if (me.cost_ > worst_result.cost_) {
worst_result = me;
}
}
}
}
}
std::cout << "Best person: " << best_result.name_ << " at cost of " << best_result.cost_ << '\n';
std::cout << "Worst person: " << worst_result.name_ << " at cost of " << worst_result.cost_ << '\n';
}

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#include <string>
#include <vector>
#include <iostream>
#include <cstdlib>
#include <limits>
#include <algorithm>
using namespace std::string_literals;
struct State {
State(unsigned long enemy_hp, unsigned long enemy_damage) : enemy_hp_(enemy_hp), enemy_damage_(enemy_damage) {}
unsigned long my_hp_{50};
unsigned long my_mana_{500};
unsigned long my_armour_{0};
unsigned long enemy_hp_;
unsigned long enemy_damage_;
unsigned long shield_counter_{0};
unsigned long poison_counter_{0};
unsigned long recharge_counter_{0};
unsigned long cost_{0};
bool operator==(State const &rhs) const {
return my_hp_ == rhs.my_hp_ && my_mana_ == rhs.my_mana_ && my_armour_ == rhs.my_armour_ &&
enemy_hp_ == rhs.enemy_hp_ && enemy_damage_ == rhs.enemy_damage_ &&
shield_counter_ == rhs.shield_counter_ && poison_counter_ == rhs.poison_counter_ &&
recharge_counter_ == rhs.recharge_counter_;
}
bool apply_effects() {
if (shield_counter_ > 0) {
if (--shield_counter_ == 0) {
my_armour_ -= 7;
}
}
if (poison_counter_ > 0) {
hit_enemy(3);
--poison_counter_;
}
if (recharge_counter_ > 0) {
my_mana_ += 101;
--recharge_counter_;
}
return enemy_hp_ == 0;
}
void hit_enemy(unsigned long damage) {
enemy_hp_ = (damage > enemy_hp_) ? 0 : enemy_hp_ - damage;
}
void hit_me() {
auto amt{my_armour_ >= enemy_damage_ ? 1 : enemy_damage_ - my_armour_};
my_hp_ = (amt > my_hp_) ? 0 : my_hp_ - amt;
}
void spend_mana(unsigned long amt) {
assert(my_mana_ >= amt);
my_mana_ -= amt;
cost_ += amt;
}
void enemy_turn() {
if (!apply_effects()) {
hit_me();
}
}
[[nodiscard]] State magic_missile() const {
State next{*this};
next.spend_mana(53);
next.hit_enemy(4);
next.enemy_turn();
return next;
}
[[nodiscard]] State drain() const {
State next{*this};
next.spend_mana(73);
next.hit_enemy(2);
next.my_hp_ += 2;
next.enemy_turn();
return next;
}
[[nodiscard]] State shield() const {
State next{*this};
assert(shield_counter_ == 0);
next.spend_mana(113);
next.my_armour_ += 7;
next.shield_counter_ = 6;
next.enemy_turn();
return next;
}
[[nodiscard]] State poison() const {
State next{*this};
assert(poison_counter_ == 0);
next.spend_mana(173);
next.poison_counter_ = 6;
next.enemy_turn();
return next;
}
[[nodiscard]] State recharge() const {
State next{*this};
assert(recharge_counter_ == 0);
next.spend_mana(229);
next.recharge_counter_ = 5;
next.enemy_turn();
return next;
}
};
unsigned long get_value(std::string const &begin) {
std::string line;
if (!std::getline(std::cin, line)) {
std::cerr << "Missing line in input\n";
std::exit(1);
}
if (line.substr(0, begin.length()) != begin) {
std::cerr << "Line doesn't begin with: " << begin << '\n';
std::exit(1);
}
return std::stoul(line.substr(begin.length()));
}
/** \brief Add \a state to \a states.
*
* @param states Vector of states
* @param state State to add.
*
* If there is already an element in \a states that is the same as \a state we don't add a new state, instead we just
* update the cost to the minimum.
*/
void add_state(std::vector<State> &states, State const &state) {
auto it = std::find(states.begin(), states.end(), state);
if (it == states.end()) {
states.push_back(state);
} else if (it->cost_ > state.cost_) {
it->cost_ = state.cost_;
}
}
int main() {
const std::string hp_begin{"Hit Points: "};
const std::string d_begin{"Damage: "};
auto enemy_hp{get_value(hp_begin)};
auto enemy_damage{get_value(d_begin)};
/* States - list of states we've generated. */
std::vector<State> states;
states.emplace_back(enemy_hp, enemy_damage);
/* Cost of the cheapest winning state so far. */
auto best_cost{std::numeric_limits<unsigned long>::max()};
while (!states.empty()) {
/* Get the lowest cost element in the list of states and process that. */
auto it = std::min_element(states.begin(), states.end(),
[](State const &lhs, State const &rhs) { return lhs.cost_ < rhs.cost_; });
State candidate{*it};
states.erase(it);
if (candidate.cost_ >= best_cost) {
/* Because we've searched for the minimum element above we know that all future candidates are going to
* cost more than the current best cost for winning - so just stop here. */
break;
}
/* Someone has died so this is a winning state - deal with it. */
if (candidate.my_hp_ == 0 || candidate.enemy_hp_ == 0) {
if (candidate.enemy_hp_ == 0 && candidate.cost_ < best_cost) {
best_cost = candidate.cost_;
}
continue;
}
#if 0
/* Part two's addition. */
if (--candidate.my_hp_ == 0) {
continue;
}
#endif
/* Apply effects at start of our turn. If someone dies push this state back on the queue. */
if (candidate.apply_effects()) {
states.push_back(candidate);
}
/* Handle each of our options (followed by the enemy's turn). Making sure that when we add the state we
* don't duplicate ourselves.
*/
if (candidate.my_mana_ >= 53) {
add_state(states, candidate.magic_missile());
}
if (candidate.my_mana_ >= 73) {
add_state(states, candidate.drain());
}
if (candidate.my_mana_ >= 113 && candidate.shield_counter_ == 0) {
add_state(states, candidate.shield());
}
if (candidate.my_mana_ >= 173 && candidate.poison_counter_ == 0) {
add_state(states, candidate.poison());
}
if (candidate.my_mana_ >= 229 && candidate.recharge_counter_ == 0) {
add_state(states, candidate.recharge());
}
}
std::cout << "Best cost " << best_cost << "\n";
return 1;
}

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#include <string>
#include <vector>
#include <iostream>
#include <cstdlib>
#include <limits>
#include <algorithm>
using namespace std::string_literals;
struct State {
State(unsigned long enemy_hp, unsigned long enemy_damage) : enemy_hp_(enemy_hp), enemy_damage_(enemy_damage) {}
unsigned long my_hp_{50};
unsigned long my_mana_{500};
unsigned long my_armour_{0};
unsigned long enemy_hp_;
unsigned long enemy_damage_;
unsigned long shield_counter_{0};
unsigned long poison_counter_{0};
unsigned long recharge_counter_{0};
unsigned long cost_{0};
bool operator==(State const &rhs) const {
return my_hp_ == rhs.my_hp_ && my_mana_ == rhs.my_mana_ && my_armour_ == rhs.my_armour_ &&
enemy_hp_ == rhs.enemy_hp_ && enemy_damage_ == rhs.enemy_damage_ &&
shield_counter_ == rhs.shield_counter_ && poison_counter_ == rhs.poison_counter_ &&
recharge_counter_ == rhs.recharge_counter_;
}
bool apply_effects() {
if (shield_counter_ > 0) {
if (--shield_counter_ == 0) {
my_armour_ -= 7;
}
}
if (poison_counter_ > 0) {
hit_enemy(3);
--poison_counter_;
}
if (recharge_counter_ > 0) {
my_mana_ += 101;
--recharge_counter_;
}
return enemy_hp_ == 0;
}
void hit_enemy(unsigned long damage) {
enemy_hp_ = (damage > enemy_hp_) ? 0 : enemy_hp_ - damage;
}
void hit_me() {
auto amt{my_armour_ >= enemy_damage_ ? 1 : enemy_damage_ - my_armour_};
my_hp_ = (amt > my_hp_) ? 0 : my_hp_ - amt;
}
void spend_mana(unsigned long amt) {
assert(my_mana_ >= amt);
my_mana_ -= amt;
cost_ += amt;
}
void enemy_turn() {
if (!apply_effects()) {
hit_me();
}
}
[[nodiscard]] State magic_missile() const {
State next{*this};
next.spend_mana(53);
next.hit_enemy(4);
next.enemy_turn();
return next;
}
[[nodiscard]] State drain() const {
State next{*this};
next.spend_mana(73);
next.hit_enemy(2);
next.my_hp_ += 2;
next.enemy_turn();
return next;
}
[[nodiscard]] State shield() const {
State next{*this};
assert(shield_counter_ == 0);
next.spend_mana(113);
next.my_armour_ += 7;
next.shield_counter_ = 6;
next.enemy_turn();
return next;
}
[[nodiscard]] State poison() const {
State next{*this};
assert(poison_counter_ == 0);
next.spend_mana(173);
next.poison_counter_ = 6;
next.enemy_turn();
return next;
}
[[nodiscard]] State recharge() const {
State next{*this};
assert(recharge_counter_ == 0);
next.spend_mana(229);
next.recharge_counter_ = 5;
next.enemy_turn();
return next;
}
};
unsigned long get_value(std::string const &begin) {
std::string line;
if (!std::getline(std::cin, line)) {
std::cerr << "Missing line in input\n";
std::exit(1);
}
if (line.substr(0, begin.length()) != begin) {
std::cerr << "Line doesn't begin with: " << begin << '\n';
std::exit(1);
}
return std::stoul(line.substr(begin.length()));
}
/** \brief Add \a state to \a states.
*
* @param states Vector of states
* @param state State to add.
*
* If there is already an element in \a states that is the same as \a state we don't add a new state, instead we just
* update the cost to the minimum.
*/
void add_state(std::vector<State> &states, State const &state) {
auto it = std::find(states.begin(), states.end(), state);
if (it == states.end()) {
states.push_back(state);
} else if (it->cost_ > state.cost_) {
it->cost_ = state.cost_;
}
}
int main() {
const std::string hp_begin{"Hit Points: "};
const std::string d_begin{"Damage: "};
auto enemy_hp{get_value(hp_begin)};
auto enemy_damage{get_value(d_begin)};
/* States - list of states we've generated. */
std::vector<State> states;
states.emplace_back(enemy_hp, enemy_damage);
/* Cost of the cheapest winning state so far. */
auto best_cost{std::numeric_limits<unsigned long>::max()};
while (!states.empty()) {
/* Get the lowest cost element in the list of states and process that. */
auto it = std::min_element(states.begin(), states.end(),
[](State const &lhs, State const &rhs) { return lhs.cost_ < rhs.cost_; });
State candidate{*it};
states.erase(it);
if (candidate.cost_ >= best_cost) {
/* Because we've searched for the minimum element above we know that all future candidates are going to
* cost more than the current best cost for winning - so just stop here. */
break;
}
/* Someone has died so this is a winning state - deal with it. */
if (candidate.my_hp_ == 0 || candidate.enemy_hp_ == 0) {
if (candidate.enemy_hp_ == 0 && candidate.cost_ < best_cost) {
best_cost = candidate.cost_;
}
continue;
}
/* Part two's addition - we lose health at the start of our turn. */
if (--candidate.my_hp_ == 0) {
continue;
}
/* Apply effects at start of our turn. If someone dies push this state back on the queue. */
if (candidate.apply_effects()) {
states.push_back(candidate);
}
/* Handle each of our options (followed by the enemy's turn). Making sure that when we add the state we
* don't duplicate ourselves.
*/
if (candidate.my_mana_ >= 53) {
add_state(states, candidate.magic_missile());
}
if (candidate.my_mana_ >= 73) {
add_state(states, candidate.drain());
}
if (candidate.my_mana_ >= 113 && candidate.shield_counter_ == 0) {
add_state(states, candidate.shield());
}
if (candidate.my_mana_ >= 173 && candidate.poison_counter_ == 0) {
add_state(states, candidate.poison());
}
if (candidate.my_mana_ >= 229 && candidate.recharge_counter_ == 0) {
add_state(states, candidate.recharge());
}
}
std::cout << "Best cost " << best_cost << "\n";
return 1;
}

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#include <string>
#include <vector>
#include <iostream>
#include <cstdlib>
#include <limits>
#include <algorithm>
#include <map>
enum class Op {
hlf, tpl, inc, jmp, jie, jio
};
enum class Reg {
a, b
};
struct Instr {
static Op get_opcode(std::string const &str) {
static std::map<std::string, Op> ops{
{"hlf ", Op::hlf},
{"tpl ", Op::tpl},
{"inc ", Op::inc},
{"jmp ", Op::jmp},
{"jie ", Op::jie},
{"jio ", Op::jio}
};
auto it = ops.find(str.substr(0, 4));
assert(it != ops.end());
return it->second;
}
static Reg get_register(std::string const &str) {
assert(str.size() >= 1);
if (str[0] == 'a') { return Reg::a; }
else if (str[0] == 'b') { return Reg::b; }
else { abort(); }
}
static long get_offset(std::string const &str) {
return std::stol(str);
}
explicit Instr(std::string const &str) {
op_ = get_opcode(str);
switch (op_) {
case Op::hlf:
case Op::tpl:
case Op::inc:
reg_ = get_register(str.substr(4));
pc_add_ = 1;
assert(str.length() == 5);
break;
case Op::jmp:
reg_ = Reg::a;
pc_add_ = get_offset(str.substr(4));
break;
case Op::jie:
case Op::jio:
reg_ = get_register(str.substr(4));
assert(str.at(5) == ',');
assert(str.at(6) == ' ');
pc_add_ = get_offset(str.substr(7));
break;
default:
abort();
}
}
Op op_;
Reg reg_;
long pc_add_;
};
struct State {
unsigned long a_{0};
unsigned long b_{0};
unsigned long pc_{0};
unsigned long& reg(Reg r) {
switch (r) {
case Reg::a: return a_;
case Reg::b: return b_;
default: abort();
}
}
void execute(Instr const &instruction) {
switch (instruction.op_) {
case Op::hlf:
reg(instruction.reg_) /= 2;
pc_ += instruction.pc_add_;
break;
case Op::tpl:
reg(instruction.reg_) *= 3;
pc_ += instruction.pc_add_;
break;
case Op::inc:
reg(instruction.reg_) += 1;
pc_ += instruction.pc_add_;
break;
case Op::jmp:
pc_ += instruction.pc_add_;
break;
case Op::jie:
if (reg(instruction.reg_) % 2 == 0) pc_ += instruction.pc_add_;
else pc_ += 1;
break;
case Op::jio:
if (reg(instruction.reg_) == 1) pc_ += instruction.pc_add_;
else pc_ += 1;
break;
default:
abort();
}
}
};
int main() {
std::vector<Instr> instructions;
std::string line;
while (std::getline(std::cin, line)) {
instructions.emplace_back(line);
}
State state;
while (state.pc_ < instructions.size()) {
state.execute(instructions[state.pc_]);
}
std::cout << "a = " << state.a_ << "\nb = " << state.b_ << '\n';
}

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#include <string>
#include <vector>
#include <iostream>
#include <cstdlib>
#include <limits>
#include <algorithm>
#include <map>
enum class Op {
hlf, tpl, inc, jmp, jie, jio
};
enum class Reg {
a, b
};
struct Instr {
static Op get_opcode(std::string const &str) {
static std::map<std::string, Op> ops{
{"hlf ", Op::hlf},
{"tpl ", Op::tpl},
{"inc ", Op::inc},
{"jmp ", Op::jmp},
{"jie ", Op::jie},
{"jio ", Op::jio}
};
auto it = ops.find(str.substr(0, 4));
assert(it != ops.end());
return it->second;
}
static Reg get_register(std::string const &str) {
assert(str.size() >= 1);
if (str[0] == 'a') { return Reg::a; }
else if (str[0] == 'b') { return Reg::b; }
else { abort(); }
}
static long get_offset(std::string const &str) {
return std::stol(str);
}
explicit Instr(std::string const &str) {
op_ = get_opcode(str);
switch (op_) {
case Op::hlf:
case Op::tpl:
case Op::inc:
reg_ = get_register(str.substr(4));
pc_add_ = 1;
assert(str.length() == 5);
break;
case Op::jmp:
reg_ = Reg::a;
pc_add_ = get_offset(str.substr(4));
break;
case Op::jie:
case Op::jio:
reg_ = get_register(str.substr(4));
assert(str.at(5) == ',');
assert(str.at(6) == ' ');
pc_add_ = get_offset(str.substr(7));
break;
default:
abort();
}
}
Op op_;
Reg reg_;
long pc_add_;
};
struct State {
unsigned long a_{1};
unsigned long b_{0};
unsigned long pc_{0};
unsigned long& reg(Reg r) {
switch (r) {
case Reg::a: return a_;
case Reg::b: return b_;
default: abort();
}
}
void execute(Instr const &instruction) {
switch (instruction.op_) {
case Op::hlf:
reg(instruction.reg_) /= 2;
pc_ += instruction.pc_add_;
break;
case Op::tpl:
reg(instruction.reg_) *= 3;
pc_ += instruction.pc_add_;
break;
case Op::inc:
reg(instruction.reg_) += 1;
pc_ += instruction.pc_add_;
break;
case Op::jmp:
pc_ += instruction.pc_add_;
break;
case Op::jie:
if (reg(instruction.reg_) % 2 == 0) pc_ += instruction.pc_add_;
else pc_ += 1;
break;
case Op::jio:
if (reg(instruction.reg_) == 1) pc_ += instruction.pc_add_;
else pc_ += 1;
break;
default:
abort();
}
}
};
int main() {
std::vector<Instr> instructions;
std::string line;
while (std::getline(std::cin, line)) {
instructions.emplace_back(line);
}
State state;
while (state.pc_ < instructions.size()) {
state.execute(instructions[state.pc_]);
}
std::cout << "a = " << state.a_ << "\nb = " << state.b_ << '\n';
}

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#include <string>
#include <vector>
#include <iostream>
#include <cstdlib>
#include <limits>
#include <algorithm>
#include <map>
#include <numeric>
#include <set>
struct State {
std::set<unsigned long> weights_;
explicit State(unsigned long w) { weights_.insert(w); }
std::size_t cost() const { return weights_.size(); }
unsigned long qe() const {
return std::accumulate(weights_.begin(), weights_.end(), 1UL,
[](unsigned long l, unsigned long w) { return l * w; });
}
unsigned long weight() const {
return std::accumulate(weights_.begin(), weights_.end(), 0UL,
[](unsigned long l, unsigned long w) { return l + w; });
}
bool operator==(State const &rhs) const { return weights_ == rhs.weights_; }
bool operator<(State const &rhs) const {
if (cost() < rhs.cost()) { return true; }
if (cost() == rhs.cost()) { return qe() < rhs.qe(); }
return false;
}
};
int main() {
std::vector<unsigned long> weights;
std::string line;
while (std::getline(std::cin, line)) {
weights.emplace_back(std::stoul(line));
}
std::set<State> states;
unsigned long target_weight;
for (auto w: weights) {
states.insert(State{w});
target_weight += w;
}
target_weight /= 3;
while (!states.empty()) {
auto it = states.begin();
State current(*it);
states.erase(it);
if (current.weight() == target_weight) {
std::cout << "Cost " << current.cost() << ", qe " << current.qe() << '\n';
return 0;
}
if (current.weight() > target_weight) {
continue;
}
for (auto w: weights) {
if (current.weights_.find(w) == current.weights_.end()) {
auto next{current};
next.weights_.insert(w);
if (states.find(next) == states.end()) {
states.insert(next);
}
}
}
}
std::cout << "It went wrong somewhere!\n";
return 1;
}

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#include <string>
#include <vector>
#include <iostream>
#include <cstdlib>
#include <limits>
#include <algorithm>
#include <map>
#include <numeric>
#include <set>
struct State {
std::set<unsigned long> weights_;
explicit State(unsigned long w) { weights_.insert(w); }
std::size_t cost() const { return weights_.size(); }
unsigned long qe() const {
return std::accumulate(weights_.begin(), weights_.end(), 1UL,
[](unsigned long l, unsigned long w) { return l * w; });
}
unsigned long weight() const {
return std::accumulate(weights_.begin(), weights_.end(), 0UL,
[](unsigned long l, unsigned long w) { return l + w; });
}
bool operator==(State const &rhs) const { return weights_ == rhs.weights_; }
bool operator<(State const &rhs) const {
if (cost() < rhs.cost()) { return true; }
if (cost() == rhs.cost()) { return qe() < rhs.qe(); }
return false;
}
};
int main() {
std::vector<unsigned long> weights;
std::string line;
while (std::getline(std::cin, line)) {
weights.emplace_back(std::stoul(line));
}
std::set<State> states;
unsigned long target_weight;
for (auto w: weights) {
states.insert(State{w});
target_weight += w;
}
target_weight /= 4;
while (!states.empty()) {
auto it = states.begin();
State current(*it);
states.erase(it);
if (current.weight() == target_weight) {
std::cout << "Cost " << current.cost() << ", qe " << current.qe() << '\n';
return 0;
}
if (current.weight() > target_weight) {
continue;
}
for (auto w: weights) {
if (current.weights_.find(w) == current.weights_.end()) {
auto next{current};
next.weights_.insert(w);
if (states.find(next) == states.end()) {
states.insert(next);
}
}
}
}
std::cout << "It went wrong somewhere!\n";
return 1;
}

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#include <cstdint>
#include <string>
#include <iostream>
std::uint64_t lcg(std::uint64_t val)
{
return (val * 252533) % 33554393;
}
int main()
{
std::string line;
std::getline(std::cin, line);
using namespace std::string_literals;
auto line_begin{"To continue, please consult the code grid in the manual. Enter the code at row "s};
auto line_middle{", column "s};
auto line_end{"."s};
assert(line.substr(0, line_begin.size()) == line_begin);
line = line.substr(line_begin.size());
std::size_t idx = 0;
unsigned long target_row = std::stoul(line, &idx);
line = line.substr(idx);
assert(line.substr(0, line_middle.size()) == line_middle);
line = line.substr(line_middle.size());
unsigned long target_column = std::stoul(line, &idx);
line = line.substr(idx);
assert(line == line_end);
unsigned long row{1};
unsigned long column{1};
std::uint64_t num{20151125};
while (row != target_row || column != target_column) {
if (row == 1) {
row = column + 1;
column = 1;
}
else {
--row;
++column;
}
num = lcg(num);
}
std::cout << "Target row " << target_row << " column " << target_column << '\n';
std::cout << "Row " << row << " column " << column << " num " << num << '\n';
return 0;
}

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#include <iostream>
#include <string>
#include <vector>
int main(int argc, char **argv) {
std::vector<int> vals;
for (std::string line; std::getline(std::cin, line);) {
int val = std::stoi(line, nullptr, 10);
for (auto v : vals) {
if (v + val == 2020) {
std::cout << v << " * " << val << " = " << v * val << "\n";
}
}
vals.push_back(val);
}
return 0;
}

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#include <iostream>
#include <string>
#include <vector>
int main(int argc, char **argv) {
std::vector<int> vals;
for (std::string line; std::getline(std::cin, line);) {
int val = std::stoi(line, nullptr, 10);
auto size = vals.size();
for (std::size_t i = 0; i < size; ++i) {
int64_t v1 = vals[i];
for (std::size_t j = 0; j < i; ++j) {
int64_t v2 = vals[j];
if (v1 + v2 + val == 2020) {
std::cout << v1 << " * " << v2 << " * " << val << " = "
<< v1 * v2 * std::int64_t(val) << "\n";
}
}
}
vals.push_back(val);
}
return 0;
}

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#include <cassert>
#include <iostream>
#include <string>
#include <vector>
struct PasswordChecker {
PasswordChecker(std::string const &s) {
std::size_t pos = 0;
min_ = std::stoul(s, &pos, 10);
assert(s[pos] == '-');
std::string s2 = s.substr(pos + 1);
max_ = std::stoul(s2, &pos, 10);
assert(s2[pos] == ' ');
c_ = s2[pos + 1];
assert(s2[pos + 2] == ':');
assert(s2[pos + 3] == ' ');
password_ = s2.substr(pos + 4);
}
bool is_valid() const {
std::string::size_type count = 0;
for (auto c : password_) {
if (c == c_) {
++count;
}
}
return (count >= min_) && (count <= max_);
}
std::string::size_type min_;
std::string::size_type max_;
std::string::value_type c_;
std::string password_;
};
int main(int argc, char **argv) {
unsigned count = 0;
for (std::string line; std::getline(std::cin, line);) {
PasswordChecker check(line);
if (check.is_valid()) {
++count;
} else {
std::cout << "IN";
}
std::cout << "VALID: " << line << "\n";
}
std::cout << "Number of valid: " << count << "\n";
return 0;
}

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#include <cassert>
#include <iostream>
#include <string>
#include <vector>
struct PasswordChecker {
PasswordChecker(std::string const &s) {
std::size_t pos = 0;
pos1_ = std::stoul(s, &pos, 10);
assert(s[pos] == '-');
std::string s2 = s.substr(pos + 1);
pos2_ = std::stoul(s2, &pos, 10);
assert(s2[pos] == ' ');
c_ = s2[pos + 1];
assert(s2[pos + 2] == ':');
assert(s2[pos + 3] == ' ');
password_ = s2.substr(pos + 4);
}
bool is_valid() const {
std::string::size_type count = 0;
if (password_.at(pos1_ - 1) == c_) {
++count;
}
if (password_.at(pos2_ - 1) == c_) {
++count;
}
return count == 1;
}
std::string::size_type pos1_; // 1 based
std::string::size_type pos2_; // 1 based
std::string::value_type c_;
std::string password_;
};
int main(int argc, char **argv) {
unsigned count = 0;
for (std::string line; std::getline(std::cin, line);) {
PasswordChecker check(line);
if (check.is_valid()) {
++count;
} else {
std::cout << "IN";
}
std::cout << "VALID: " << line << "\n";
}
std::cout << "Number of valid: " << count << "\n";
return 0;
}

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#include <cassert>
#include <iostream>
#include <string>
#include <vector>
std::string rotate(std::string const &s, std::string::size_type amount) {
auto length = s.length();
return (s + s).substr(amount % length, length);
}
int main(int argc, char **argv) {
unsigned count = 0;
std::string::size_type rotation = 0;
for (std::string line; std::getline(std::cin, line);) {
auto rotated = rotate(line, rotation);
rotation += 3;
count += (rotated[0] == '#');
}
std::cout << "Number of trees: " << count << "\n";
return 0;
}

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#include <cassert>
#include <iostream>
#include <string>
#include <vector>
std::string rotate(std::string const &s, std::string::size_type amount) {
auto length = s.length();
return (s + s).substr(amount % length, length);
}
int main(int argc, char **argv) {
if (argc != 3) {
std::cerr << "Usage: " << argv[0] << " <right> <down>\n";
return 1;
}
int right = atoi(argv[1]);
int down = atoi(argv[2]);
if (right <= 0) {
std::cerr << "Right is less than 1\n";
return 1;
}
if (down <= 0) {
std::cerr << "Down is less than 1\n";
return 1;
}
unsigned count = 0;
int row = -1;
std::string::size_type rotation = 0;
for (std::string line; std::getline(std::cin, line);) {
++row;
if ((row % down) != 0) {
continue;
}
auto rotated = rotate(line, rotation);
rotation += right;
count += (rotated[0] == '#');
}
std::cout << count << "\n";
return 0;
}

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#include <cassert>
#include <iostream>
#include <set>
#include <string>
using StringSet = std::set<std::string>;
namespace {
StringSet parse_line(std::string const &str) {
StringSet result;
std::string::size_type pos = 0;
while (pos != std::string::npos) {
while (pos < str.length() && str.at(pos) == ' ') {
++pos;
}
auto end_pos = str.find(' ', pos);
auto colon_pos = str.find(':', pos);
assert(colon_pos != std::string::npos);
assert(colon_pos < end_pos);
auto len = colon_pos - pos;
result.insert(str.substr(pos, len));
pos = end_pos;
}
return result;
}
const StringSet mandatory{"byr", "iyr", "eyr", "hgt", "hcl", "ecl", "pid"};
const StringSet optional{"cid"};
bool is_valid_passport(StringSet const &mandatory_found) {
return mandatory_found.size() == mandatory.size();
}
} // namespace
int main(int argc, char **argv) {
StringSet mandatory_found;
StringSet optional_found;
unsigned valid = 0;
for (std::string line; std::getline(std::cin, line);) {
if (!line.empty()) {
auto keys = parse_line(line);
for (auto const &key : keys) {
std::cout << "Key " << key << " is ";
if (mandatory.find(key) != mandatory.end()) {
auto [it, success] = mandatory_found.insert(key);
std::cout << "mandatory";
if (!success) {
std::cout << " (duplicate)";
}
} else if (optional.find(key) != optional.end()) {
auto [it, success] = optional_found.insert(key);
std::cout << "optional";
if (!success) {
std::cout << " (duplicate)";
}
} else {
std::cout << "unexpected";
}
std::cout << "\n";
}
} else {
valid += is_valid_passport(mandatory_found);
mandatory_found.clear();
optional_found.clear();
}
}
valid += is_valid_passport(mandatory_found);
std::cout << valid << "\n";
return 0;
}

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#include <cassert>
#include <functional>
#include <iostream>
#include <map>
#include <set>
#include <string>
// Various types that are useful
using StringSet = std::set<std::string>;
using StringMap = std::map<std::string, std::string>;
using ValidateFn = std::function<bool(std::string const &)>;
using ValidateMap = std::map<std::string, ValidateFn>;
namespace {
/** \brief Parse a string into a map of key/value pairs.
* \param str String to parse
* \return Map
*
* \a str is expected to look like a space separated list of pairs where each
* pair is of the form 'key:value'.
*/
StringMap parse_line(std::string const &str) {
StringMap result;
std::string::size_type pos = 0;
while (pos != std::string::npos) {
while (pos < str.length() && str.at(pos) == ' ') {
++pos;
}
auto end_pos = str.find(' ', pos);
auto colon_pos = str.find(':', pos);
assert(colon_pos != std::string::npos);
assert(colon_pos < end_pos);
auto key_len = colon_pos - pos;
auto value_len = (end_pos == std::string::npos)
? std::string::npos
: (end_pos - (colon_pos + 1));
auto key = str.substr(pos, key_len);
auto value = str.substr(colon_pos + 1, value_len);
result.insert({key, value});
pos = end_pos;
}
return result;
}
/** \brief Validate a year
* \param s String to validate
* \param min Minimum year to accept
* \param max Maximum year to accept
* \return True if \a s is in range [min, max]
*/
bool validate_year(std::string const &s, unsigned min, unsigned max) {
if (s.length() != 4) {
return false;
}
std::size_t pos = 0;
auto yr = std::stoul(s, &pos, 10);
if (pos != s.length()) {
return false;
}
return yr >= min && yr <= max;
}
/// Validate byr field
bool validate_byr(std::string const &s) { return validate_year(s, 1920, 2002); }
/// Validate iyr field
bool validate_iyr(std::string const &s) { return validate_year(s, 2010, 2020); }
/// Validate eyr field
bool validate_eyr(std::string const &s) { return validate_year(s, 2020, 2030); }
/// Validate hgt field
bool validate_hgt(std::string const &s) {
std::size_t pos = 0;
auto hgt = std::stoul(s, &pos, 10);
if (pos != s.length() - 2) {
return false;
}
if (s[pos] == 'c' && s[pos + 1] == 'm') {
return hgt >= 150 && hgt <= 193;
} else if (s[pos] == 'i' && s[pos + 1] == 'n') {
return hgt >= 59 && hgt <= 76;
}
return false;
}
/** \brief Validate a string contains valid characters only
* \param s String to check
* \param len Required length of string
* \param cs Valid characters
* \return True iff we pass validation
*/
bool validate_chars(std::string const &s, std::string::size_type len,
std::string const &cs) {
if (s.length() != len) {
return false;
}
for (auto c : s) {
if (cs.find(c) == std::string::npos) {
return false;
}
}
return true;
}
/// Validate hcl field
bool validate_hcl(std::string const &s) {
if (s.length() != 7) {
return false;
}
if (s[0] != '#') {
return false;
}
return validate_chars(s.substr(1), 6, "0123456789abcdef");
}
/// Validate ecl field
bool validate_ecl(std::string const &s) {
static const StringSet valid = {"amb", "blu", "brn", "gry",
"grn", "hzl", "oth"};
return valid.find(s) != valid.end();
}
/// Validate pid field
bool validate_pid(std::string const &s) {
return validate_chars(s, 9, "0123456789");
}
/// Validate cid field
bool validate_cid(std::string const &s) { return true; }
/// Check if a passport is valid
///
/// A passport is valid if it contains all mandatory fields, and passes
/// validation on all fields.
bool is_valid_passport(StringMap const &found) {
static const StringSet mandatory{"byr", "iyr", "eyr", "hgt",
"hcl", "ecl", "pid"};
static const ValidateMap validators{
{"byr", validate_byr}, {"iyr", validate_iyr}, {"eyr", validate_eyr},
{"hgt", validate_hgt}, {"hcl", validate_hcl}, {"ecl", validate_ecl},
{"pid", validate_pid}, {"cid", validate_cid},
};
unsigned mandatory_found = 0;
for (auto const &kv : found) {
if (mandatory.find(kv.first) != mandatory.end()) {
++mandatory_found;
}
auto validator = validators.find(kv.first);
if (validator == validators.end()) {
std::cout << "Found invalid key: " << kv.first << "\n";
} else {
auto valid = validator->second(kv.second);
if (!valid) {
std::cout << "Invalid value for key: " << kv.first << ": " << kv.second
<< "\n";
return false;
}
}
}
return mandatory_found == mandatory.size();
}
} // namespace
int main(int argc, char **argv) {
StringMap found;
unsigned valid = 0;
for (std::string line; std::getline(std::cin, line);) {
if (!line.empty()) {
auto keys = parse_line(line);
found.insert(keys.begin(), keys.end());
} else {
valid += is_valid_passport(found);
found.clear();
}
}
valid += is_valid_passport(found);
std::cout << valid << "\n";
return 0;
}

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#include <cassert>
#include <iostream>
#include <string>
/** \brief Return the position described by BSP in s.
* \tparam L2 log2 of the max position.
* \tparam LOWER character which means use lower half.
* \tparam UPPER character which means use upper half.
* \param s String to parse, must be L2 characters long
* \return Position described by s.
*/
template <unsigned L2, char LOWER, char UPPER>
unsigned find_pos(std::string const &s) {
assert(s.length() == L2);
unsigned low = 0;
unsigned high = 1 << L2;
unsigned width = 1 << (L2 - 1);
for (auto c : s) {
assert(high != low);
assert(width != 0);
if (c == LOWER) {
high = low + width;
} else if (c == UPPER) {
low = low + width;
} else {
assert(false);
}
width >>= 1;
}
assert(low == high - 1);
return low;
}
template <unsigned L2R, unsigned L2C> struct Seat {
Seat(std::string const &s) {
assert(s.length() == L2R + L2C);
row_ = find_pos<L2R, 'F', 'B'>(s.substr(0, L2R));
col_ = find_pos<L2C, 'L', 'R'>(s.substr(L2R, L2C));
std::cout << s << ": row " << row_ << ", column " << col_ << ", seat ID "
<< id() << ".\n";
}
unsigned id() const noexcept { return row_ * (1 << L2C) + col_; }
unsigned row_;
unsigned col_;
};
int main(int argc, char **argv) {
unsigned max_id = 0;
for (std::string line; std::getline(std::cin, line);) {
Seat<7, 3> seat(line);
max_id = std::max(max_id, seat.id());
}
std::cout << "Max ID: " << max_id << "\n";
return 0;
}

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#include <array>
#include <cassert>
#include <iostream>
#include <string>
/** \brief Return the position described by BSP in s.
* \tparam L2 log2 of the max position.
* \tparam LOWER character which means use lower half.
* \tparam UPPER character which means use upper half.
* \param s String to parse, must be L2 characters long
* \return Position described by s.
*
* \subsection After the fact commentary:
*
* We don't need to keep a record of high at all so the original solution
* was over enthusiastic.
*/
template <unsigned L2, char LOWER, char UPPER>
unsigned find_pos(std::string const &s) {
assert(s.length() == L2);
unsigned low = 0;
unsigned width = 1 << (L2 - 1);
for (auto c : s) {
assert(width != 0);
if (c == UPPER) {
low = low + width;
} else {
assert(c == LOWER);
}
width >>= 1;
}
assert(width == 0);
return low;
}
/** \brief A seat
* \tparam L2R log 2 number of rows
* \tparam L2C log 2 number of columns
*/
template <unsigned L2R, unsigned L2C> struct Seat {
/** \brief Construct the seat.
* \param s String representing seat location, must be L2R + L2C chars.
*
* First L2R characters must be 'F' and 'B' representing row, last L2C
* characters must by 'L', and 'R' representing column.
*
* \brief After the fact commentary:
*
* Should have used initialiser lists.
*/
Seat(std::string const &s)
: row_(find_pos<L2R, 'F', 'B'>(s.substr(0, L2R))),
col_(find_pos<L2C, 'L', 'R'>(s.substr(L2R, L2C))) {
assert(s.length() == L2R + L2C);
std::cout << s << ": row " << row_ << ", column " << col_ << ", seat ID "
<< id() << ".\n";
}
/** Get seat ID. */
unsigned id() const noexcept { return row_ * (1 << L2C) + col_; }
unsigned row_; ///< Seat row
unsigned col_; ///< Seat column
};
/** \brief main
*
* \subsection After the fact commentary:
*
* Could have initialised the array better.
*/
int main(int argc, char **argv) {
constexpr unsigned l2r = 7; ///< Log 2 number of rows
constexpr unsigned l2c = 3; ///< Log 2 number of columns
constexpr unsigned max_id = 1 << (l2r + l2c); ///< Max ID.
std::array<bool, max_id> id_present = {}; ///< Is the ID present?
// Read the lines in marking IDs that are present
for (std::string line; std::getline(std::cin, line);) {
Seat<l2r, l2c> seat(line);
assert(seat.id() < max_id);
id_present[seat.id()] = true;
}
// We have an empty seat if it's ID is not present, but the IDs at +/-1 are.
for (unsigned id = 1; id < id_present.size() - 1; ++id) {
if (!id_present[id] && id_present[id - 1] && id_present[id + 1]) {
std::cout << "Empty seat at: " << id << "\n";
}
}
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <string>
// Merge two strings of answers, preserving order and ensuring uniqueness of
// each answer.
std::string merge_answers(std::string const &a, std::string const &b) {
std::string result;
std::string::size_type pos_a = 0;
std::string::size_type pos_b = 0;
while (pos_a < a.length() && pos_b < b.length()) {
if (a[pos_a] < b[pos_b]) {
result += a[pos_a];
++pos_a;
} else if (b[pos_b] < a[pos_a]) {
result += b[pos_b];
++pos_b;
} else {
assert(a[pos_a] == b[pos_b]);
result += a[pos_a];
++pos_a;
++pos_b;
}
}
result += a.substr(pos_a);
result += b.substr(pos_b);
std::cout << "Merged " << a << " and " << b << " to " << result << "\n";
return result;
}
int main(int argc, char **argv) {
std::string current_answers;
unsigned count = 0;
for (std::string line; std::getline(std::cin, line);) {
if (!line.empty()) {
std::sort(line.begin(), line.end());
current_answers = merge_answers(current_answers, line);
} else {
std::cout << "Length of " << current_answers << " = "
<< current_answers.length() << "\n";
count += current_answers.length();
current_answers.clear();
}
}
std::cout << "Length of " << current_answers << " = "
<< current_answers.length() << "\n";
count += current_answers.length();
std::cout << "Total length = " << count << "\n";
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <map>
#include <string>
using OccuranceMap = std::map<char, unsigned>;
struct GroupAnswers {
void add_answers(std::string const &a) {
// Increase group size
++group_size_;
// Add answers
for (auto c : a) {
auto it = map_.find(c);
if (it == map_.end()) {
map_.insert({c, 1});
} else {
++(it->second);
}
}
}
// Count the number of answered questions answered by everyone.
unsigned all_answer_count() const noexcept {
unsigned count = 0;
for (auto kv : map_) {
if (kv.second == group_size_) {
++count;
}
}
return count;
}
void clear() {
map_.clear();
group_size_ = 0;
}
OccuranceMap map_;
unsigned group_size_ = 0;
};
int main(int argc, char **argv) {
GroupAnswers answers;
unsigned count = 0;
for (std::string line; std::getline(std::cin, line);) {
if (!line.empty()) {
answers.add_answers(line);
} else {
count += answers.all_answer_count();
answers.clear();
}
}
count += answers.all_answer_count();
std::cout << "Total length = " << count << "\n";
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
// This code is horrible - my only excuse is I wrote it before breakfast
using Node = std::string;
using Nodes = std::map<Node, bool>;
using Edge = std::pair<Node, Node>;
using Weight = unsigned;
using EdgeWeights = std::map<Edge, Weight>;
using NodeQueue = std::list<Node>;
std::ostream &operator<<(std::ostream &os, NodeQueue const &q) {
std::string p = "";
os << "[";
for (auto const &n : q) {
os << p << n;
p = ", ";
}
os << "]";
return os;
}
struct BagGraph {
BagGraph() { nodes_.insert({"", false}); }
void add_edges(std::string const &s) {
static const auto prefix_re = std::regex("([a-z ]+) bags? contain ");
static const auto suffix_re = std::regex("(\\d)+ ([a-z ]+) bags?[,.]\\s*");
static const auto empty_str = std::string("no other bags.");
std::smatch prefix_m;
if (!std::regex_search(s, prefix_m, prefix_re)) {
std::cout << "Failed to match: " << s << "\n";
assert(false);
return;
}
std::string n2 = prefix_m.str(1);
nodes_.insert({n2, false});
std::string suffix = prefix_m.suffix();
while (!suffix.empty()) {
if (suffix == empty_str) {
suffix = "";
Edge e = std::make_pair("", n2);
edges_.insert({e, 0});
std::cout << "<none> -> " << n2 << ": 0\n";
} else {
std::smatch suffix_m;
if (!std::regex_search(suffix, suffix_m, suffix_re)) {
std::cout << "Failed to match: " << suffix << "\n";
assert(false);
return;
}
Weight w = std::stoul(suffix_m.str(1));
Node n1 = suffix_m.str(2);
suffix = suffix_m.suffix();
Edge e = std::make_pair(n1, n2);
nodes_.insert({n1, false});
edges_.insert({e, w});
std::cout << n1 << " -> " << n2 << ": " << w << "\n";
}
}
}
unsigned num_containers(Node const &n) {
NodeQueue queue;
// Initial population of queue:
populate_queue(queue, n);
std::cout << "Initial queue: " << queue << "\n";
unsigned visited = 0;
// Iterate over queue finding how
while (!queue.empty()) {
Node n1 = queue.front();
std::cout << "Processing: " << n1 << "\n";
queue.pop_front();
if (!nodes_[n1]) {
nodes_[n1] = true;
populate_queue(queue, n1);
++visited;
std::cout << "Updated queue: " << queue << "\n";
} else {
std::cout << "Already visited\n";
}
}
return visited;
}
private:
void populate_queue(NodeQueue &queue, Node const &n) {
for (auto const &kv : edges_) {
if (kv.first.first == n && !nodes_[kv.first.second]) {
queue.push_back(kv.first.second);
}
}
}
EdgeWeights edges_;
Nodes nodes_;
};
int main(int argc, char **argv) {
BagGraph bg;
for (std::string line; std::getline(std::cin, line);) {
bg.add_edges(line);
}
Node n = "shiny gold";
auto visited = bg.num_containers(n);
std::cout << "Number of " << n << " containers " << visited << "\n";
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
// This code is horrible - my only excuse is I wrote it before breakfast
using Node = std::string;
using Edge = std::pair<Node, Node>;
using Weight = unsigned;
using EdgeWeights = std::map<Edge, Weight>;
struct BagGraph {
void add_edges(std::string const &s) {
static const auto prefix_re = std::regex("([a-z ]+) bags? contain ");
static const auto suffix_re = std::regex("(\\d)+ ([a-z ]+) bags?[,.]\\s*");
static const auto empty_str = std::string("no other bags.");
std::smatch prefix_m;
if (!std::regex_search(s, prefix_m, prefix_re)) {
std::cout << "Failed to match: " << s << "\n";
assert(false);
return;
}
std::string n1 = prefix_m.str(1);
std::string suffix = prefix_m.suffix();
while (!suffix.empty()) {
if (suffix == empty_str) {
std::cout << n1 << " -> none: <empty>\n";
suffix.clear();
} else {
std::smatch suffix_m;
if (!std::regex_search(suffix, suffix_m, suffix_re)) {
std::cout << "Failed to match: " << suffix << "\n";
assert(false);
return;
}
Weight w = std::stoul(suffix_m.str(1));
Node n2 = suffix_m.str(2);
suffix = suffix_m.suffix();
Edge e = std::make_pair(n1, n2);
edges_.insert({e, w});
std::cout << n1 << " -> " << n2 << ": " << w << "\n";
}
}
}
Weight num_contained(Node const &n) {
// Get the number of bags including the node we've been asked for so the
// result is 1 less than the internal result
return num_contained1(n) - 1;
}
private:
Weight num_contained1(Node const &n) {
Weight w = 0;
bool contains_something = false;
for (auto const &kv : edges_) {
if (kv.first.first == n) {
w += kv.second * num_contained1(kv.first.second);
contains_something = true;
}
}
return w + 1;
}
EdgeWeights edges_;
};
int main(int argc, char **argv) {
BagGraph bg;
for (std::string line; std::getline(std::cin, line);) {
bg.add_edges(line);
}
Node n = "shiny gold";
auto contained = bg.num_contained(n);
std::cout << n << " contains " << contained << " bags.\n";
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
enum class Opcode { Acc, Jmp, Nop };
using Value = int;
struct Instruction {
Instruction(std::string const &s)
: op_(to_opcode(s.substr(0, 3))), v_(to_value(s.substr(4))) {}
Opcode opcode() const noexcept { return op_; }
Value value() const noexcept { return v_; }
private:
Opcode to_opcode(std::string const &s) {
if (s == "acc") {
return Opcode::Acc;
} else if (s == "jmp") {
return Opcode::Jmp;
} else if (s == "nop") {
return Opcode::Nop;
} else {
assert(false);
return Opcode::Nop;
}
}
Value to_value(std::string const &s) {
int sign = 0;
int v = 0;
std::size_t pos = 0;
if (s[0] == '+') {
sign = 1;
} else if (s[0] == '-') {
sign = -1;
} else {
assert(false);
}
v = std::stoi(s.substr(1), &pos);
assert(pos == s.length() - 1);
return v * sign;
}
Opcode op_;
Value v_;
};
std::ostream &operator<<(std::ostream &os, Instruction const &i) {
switch (i.opcode()) {
case Opcode::Acc:
os << "acc";
break;
case Opcode::Jmp:
os << "jmp";
break;
case Opcode::Nop:
os << "nop";
break;
default:
os << "UNK";
break;
}
os << " ";
if (i.value() >= 0) {
os << "+";
}
os << i.value();
return os;
}
using Instructions = std::vector<Instruction>;
struct VM {
VM() : pc_(0), acc_(0) {}
void add_instruction(Instruction const &i) {
std::cout << i << "\n";
instrs_.push_back(i);
}
void execute() {
std::vector<bool> seen(instrs_.size(), false);
while (!seen[pc_]) {
assert(pc_ < instrs_.size());
seen[pc_] = true;
execute(instrs_[pc_]);
++pc_;
}
std::cout << "PC seen before: " << pc_ << "\n";
}
Value acc() const noexcept { return acc_; }
private:
void execute(Instruction const &i) {
std::cout << pc_ << ": " << i;
switch (i.opcode()) {
case Opcode::Acc:
std::cout << "; acc = " << acc_ << " + " << i.value();
acc_ += i.value();
std::cout << " = " << acc_;
break;
case Opcode::Jmp:
std::cout << "; pc = " << pc_ << " + " << i.value();
pc_ += i.value() - 1;
std::cout << " = " << pc_ + 1;
break;
case Opcode::Nop:
break;
}
std::cout << "\n";
}
Instructions instrs_;
std::size_t pc_;
Value acc_;
};
int main(int argc, char **argv) {
VM vm;
for (std::string line; std::getline(std::cin, line);) {
vm.add_instruction(Instruction(line));
}
vm.execute();
std::cout << "Accumulator: " << vm.acc() << "\n";
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
enum class Opcode { Acc, Jmp, Nop };
using Value = int;
struct Instruction {
Instruction(std::string const &s)
: op_(to_opcode(s.substr(0, 3))), v_(to_value(s.substr(4))) {}
Opcode opcode() const noexcept { return op_; }
Value value() const noexcept { return v_; }
bool flip_jmp() {
switch (op_) {
case Opcode::Acc:
return false;
case Opcode::Jmp:
op_ = Opcode::Nop;
return true;
case Opcode::Nop:
op_ = Opcode::Jmp;
return true;
default:
assert(false);
}
}
private:
Opcode to_opcode(std::string const &s) {
if (s == "acc") {
return Opcode::Acc;
} else if (s == "jmp") {
return Opcode::Jmp;
} else if (s == "nop") {
return Opcode::Nop;
} else {
assert(false);
return Opcode::Nop;
}
}
Value to_value(std::string const &s) {
int sign = 0;
int v = 0;
std::size_t pos = 0;
if (s[0] == '+') {
sign = 1;
} else if (s[0] == '-') {
sign = -1;
} else {
assert(false);
}
v = std::stoi(s.substr(1), &pos);
assert(pos == s.length() - 1);
return v * sign;
}
Opcode op_;
Value v_;
};
std::ostream &operator<<(std::ostream &os, Instruction const &i) {
switch (i.opcode()) {
case Opcode::Acc:
os << "acc";
break;
case Opcode::Jmp:
os << "jmp";
break;
case Opcode::Nop:
os << "nop";
break;
default:
os << "UNK";
break;
}
os << " ";
if (i.value() >= 0) {
os << "+";
}
os << i.value();
return os;
}
using Instructions = std::vector<Instruction>;
struct VM {
VM() : pc_(0), acc_(0) {}
void add_instruction(Instruction const &i) {
std::cout << i << "\n";
instrs_.push_back(i);
}
bool execute() {
std::vector<bool> seen(instrs_.size(), false);
acc_ = 0;
pc_ = 0;
while (!seen[pc_]) {
assert(pc_ < instrs_.size());
seen[pc_] = true;
execute(instrs_[pc_]);
++pc_;
if (pc_ == instrs_.size()) {
std::cout << "Terminated\n";
return true;
}
}
std::cout << "PC seen before: " << pc_ << "\n";
return false;
}
void find_fix() {
for (std::size_t pos = 0; pos < instrs_.size(); ++pos) {
if (instrs_[pos].flip_jmp()) {
if (execute()) {
std::cout << "Success at instruction " << pos << ": " << instrs_[pos]
<< "\n";
return;
}
instrs_[pos].flip_jmp();
}
}
}
Value acc() const noexcept { return acc_; }
private:
void execute(Instruction const &i) {
std::cout << pc_ << ": " << i;
switch (i.opcode()) {
case Opcode::Acc:
std::cout << "; acc = " << acc_ << " + " << i.value();
acc_ += i.value();
std::cout << " = " << acc_;
break;
case Opcode::Jmp:
std::cout << "; pc = " << pc_ << " + " << i.value();
pc_ += i.value() - 1;
std::cout << " = " << pc_ + 1;
break;
case Opcode::Nop:
break;
}
std::cout << "\n";
}
Instructions instrs_;
std::size_t pc_;
Value acc_;
};
int main(int argc, char **argv) {
VM vm;
for (std::string line; std::getline(std::cin, line);) {
vm.add_instruction(Instruction(line));
}
vm.find_fix();
std::cout << "Accumulator: " << vm.acc() << "\n";
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
template <std::size_t L> struct Buffer {
Buffer() {}
bool add_value(std::string const &s) {
unsigned long i = std::stoul(s);
auto size = buf_.size();
if (size == L && !valid(i)) {
return false;
}
if (size == L) {
buf_.pop_front();
}
buf_.push_back(i);
return true;
}
private:
bool valid(unsigned long v) const {
assert(buf_.size() == L);
for (auto i = buf_.begin(); i != buf_.end(); ++i) {
auto j = i;
for (++j; j != buf_.end(); ++j) {
if (v == *i + *j) {
std::cout << "v = "
<< " " << *i << " + " << *j << "\n";
return true;
}
}
}
return false;
}
std::list<unsigned long> buf_;
};
int main(int argc, char **argv) {
Buffer<25> buf;
for (std::string line; std::getline(std::cin, line);) {
if (!buf.add_value(line)) {
std::cout << "Invalid: " << line << "\n";
return 0;
}
}
return 0;
}

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#include <algorithm>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
template <std::size_t L> struct Buffer {
Buffer() {}
bool add_value(std::string const &s) {
unsigned long i = std::stoul(s);
bool result = true;
auto size = buf_.size();
if (size >= L) {
result = valid(i);
}
buf_.push_back(i);
return result;
}
unsigned long get_weakness(unsigned long v) {
std::size_t sum_begin = 0;
std::size_t sum_end = 0;
unsigned long sum = 0;
while (sum != v) {
if (sum < v) {
assert(sum_end != buf_.size());
sum += buf_[sum_end];
++sum_end;
}
if (sum > v) {
assert(sum_begin != buf_.size());
sum -= buf_[sum_begin];
++sum_begin;
}
}
std::cout << "sum_begin = " << sum_begin << " sum_end = " << sum_end
<< "\n";
std::vector<unsigned long> vec(buf_.begin() + sum_begin,
buf_.begin() + sum_end);
std::sort(vec.begin(), vec.end());
return vec[0] + vec[vec.size() - 1];
}
private:
bool valid(unsigned long v) const {
assert(buf_.size() >= L);
for (auto i = buf_.size() - 25; i != buf_.size(); ++i) {
for (auto j = i + 1; j != buf_.size(); ++j) {
if (v == buf_[i] + buf_[j]) {
return true;
}
}
}
return false;
}
std::vector<unsigned long> buf_;
};
int main(int argc, char **argv) {
Buffer<25> buf;
unsigned long invalid = 0;
for (std::string line; std::getline(std::cin, line);) {
if (!buf.add_value(line)) {
if (invalid == 0) {
invalid = std::stoul(line);
}
}
}
std::cout << "First Invalid: " << invalid << "\n";
std::cout << "Weakness: " << buf.get_weakness(invalid) << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
using Jolt = unsigned long;
int main(int argc, char **argv) {
std::vector<Jolt> jolts;
for (std::string line; std::getline(std::cin, line);) {
jolts.push_back(std::stoul(line));
}
std::sort(jolts.begin(), jolts.end());
std::array<unsigned, 4> gaps = {};
Jolt last = 0;
for (auto j : jolts) {
++gaps[j - last];
last = j;
}
// and the gap to our voltage
++gaps[3];
std::cout << gaps[1] << " * " << gaps[3] << " = " << gaps[1] * gaps[3]
<< "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
using Jolt = unsigned long;
Jolt count_valid_combinations(std::vector<Jolt> const &jolts) {
std::vector<Jolt> valid(jolts.size(), 0);
valid[jolts.size() - 1] = 1;
std::size_t i = jolts.size() - 1;
do {
auto i2 = i;
--i;
valid[i] = 0;
while (i2 < jolts.size() && jolts[i2] < jolts[i] + 4) {
valid[i] += valid[i2];
++i2;
}
std::cout << jolts[i] << ": " << valid[i] << "\n";
} while (i > 0);
return valid[0];
}
int main(int argc, char **argv) {
std::vector<Jolt> jolts;
for (std::string line; std::getline(std::cin, line);) {
jolts.push_back(std::stoul(line));
}
jolts.push_back(0);
std::sort(jolts.begin(), jolts.end());
jolts.push_back(jolts[jolts.size() - 1] + 3);
auto combinations = count_valid_combinations(jolts);
std::cout << "Number of valid combinations: " << combinations << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
using Array = std::vector<std::string>;
char next_state(Array const &a, std::size_t row, std::size_t col) {
unsigned occupied = 0;
if (row > 0) {
if (col > 0) {
occupied += (a[row - 1][col - 1] == '#');
}
occupied += a[row - 1][col] == '#';
if (col < a[row - 1].size() - 1) {
occupied += (a[row - 1][col + 1] == '#');
}
}
if (col > 0) {
occupied += (a[row][col - 1] == '#');
}
if (col < a[row].size() - 1) {
occupied += (a[row][col + 1] == '#');
}
if (row < a.size() - 1) {
if (col > 0) {
occupied += (a[row + 1][col - 1] == '#');
}
occupied += a[row + 1][col] == '#';
if (col < a[row + 1].size() - 1) {
occupied += (a[row + 1][col + 1] == '#');
}
}
if (a[row][col] == 'L' && occupied == 0) {
return '#';
} else if (a[row][col] == '#' && occupied >= 4) {
return 'L';
} else {
return a[row][col];
}
}
unsigned long count_occupied(Array const &a) {
unsigned long count = 0;
for (auto const &row : a) {
for (auto col : row) {
count += (col == '#');
}
}
return count;
}
unsigned long run_to_steady_state(Array const &a) {
Array current = a;
bool changed = true;
unsigned i = 0;
while (changed) {
std::cout << "------ iter = " << i++ << "\n";
changed = false;
Array next;
for (std::size_t row = 0; row < current.size(); ++row) {
std::string s = "";
for (std::size_t col = 0; col < current[row].size(); ++col) {
char c = next_state(current, row, col);
s.push_back(c);
if (c != current[row][col]) {
changed = true;
}
}
next.push_back(s);
std::cout << s << "\n";
}
current = next;
}
return count_occupied(current);
}
int main(int argc, char **argv) {
Array array;
for (std::string line; std::getline(std::cin, line);) {
array.push_back(line);
std::cout << line << "\n";
}
unsigned long result = run_to_steady_state(array);
std::cout << "Number of occupied states: " << result << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
using Array = std::vector<std::string>;
unsigned search(Array const &a, std::size_t row, std::size_t col, int rd,
int cd) {
int cr = (int)row;
int cc = (int)col;
while (true) {
cr += rd;
cc += cd;
if (cr == row && cc == col) {
return 0;
}
if (cr < 0 || cr >= a.size()) {
return 0;
}
if (cc < 0 || cc >= a[cr].size()) {
return 0;
}
if (a[cr][cc] == '#') {
return 1;
}
if (a[cr][cc] == 'L') {
return 0;
}
}
assert(false);
}
char next_state(Array const &a, std::size_t row, std::size_t col) {
unsigned occupied = 0;
for (int row_delta = -1; row_delta < 2; ++row_delta) {
for (int col_delta = -1; col_delta < 2; ++col_delta) {
occupied += search(a, row, col, row_delta, col_delta);
}
}
if (a[row][col] == 'L' && occupied == 0) {
return '#';
} else if (a[row][col] == '#' && occupied >= 5) {
return 'L';
} else {
return a[row][col];
}
}
unsigned long count_occupied(Array const &a) {
unsigned long count = 0;
for (auto const &row : a) {
for (auto col : row) {
count += (col == '#');
}
}
return count;
}
unsigned long run_to_steady_state(Array const &a) {
Array current = a;
bool changed = true;
unsigned i = 0;
while (changed) {
std::cout << "------ iter = " << i++ << "\n";
changed = false;
Array next;
for (std::size_t row = 0; row < current.size(); ++row) {
std::string s = "";
for (std::size_t col = 0; col < current[row].size(); ++col) {
char c = next_state(current, row, col);
s.push_back(c);
if (c != current[row][col]) {
changed = true;
}
}
next.push_back(s);
std::cout << s << "\n";
}
current = next;
}
return count_occupied(current);
}
int main(int argc, char **argv) {
Array array;
for (std::string line; std::getline(std::cin, line);) {
array.push_back(line);
std::cout << line << "\n";
}
unsigned long result = run_to_steady_state(array);
std::cout << "Number of occupied states: " << result << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
enum class Heading { North = 'N', East = 'E', South = 'S', West = 'W' };
struct Position {
Position() : x_(0), y_(0), head_(Heading::East) {}
void move(std::string const &s) {
char act = s[0];
int dist = std::stoi(s.substr(1));
switch (act) {
case 'N':
case 'E':
case 'S':
case 'W':
move(dist, static_cast<Heading>(act));
break;
case 'F':
move(dist, head_);
break;
case 'L':
rotate_left(dist);
break;
case 'R':
rotate_left(360 - dist);
break;
default:
assert(false);
}
std::cout << s << ": (" << x_ << ", " << y_ << ")\n";
}
void move(int dist, Heading head) {
switch (head) {
case Heading::North:
y_ += dist;
break;
case Heading::East:
x_ += dist;
break;
case Heading::South:
y_ -= dist;
break;
case Heading::West:
x_ -= dist;
break;
default:
assert(false);
break;
}
}
void rotate_left(int deg) {
/* We want the rang [-180, 180]. */
while (deg < -180) {
deg += 360;
}
while (deg > 180) {
deg -= 360;
}
if (deg == -90) {
switch (head_) {
case Heading::North:
head_ = Heading::East;
break;
case Heading::East:
head_ = Heading::South;
break;
case Heading::South:
head_ = Heading::West;
break;
case Heading::West:
head_ = Heading::North;
break;
default:
assert(false);
}
} else if (deg == 90) {
switch (head_) {
case Heading::North:
head_ = Heading::West;
break;
case Heading::East:
head_ = Heading::North;
break;
case Heading::South:
head_ = Heading::East;
break;
case Heading::West:
head_ = Heading::South;
break;
default:
assert(false);
}
} else if (deg == 180 || deg == -180) {
switch (head_) {
case Heading::North:
head_ = Heading::South;
break;
case Heading::East:
head_ = Heading::West;
break;
case Heading::South:
head_ = Heading::North;
break;
case Heading::West:
head_ = Heading::East;
break;
default:
assert(false);
}
} else if (deg != 0) {
assert(false);
}
}
int distance() const noexcept { return std::abs(x_) + std::abs(y_); }
int x_;
int y_;
Heading head_;
};
int main(int argc, char **argv) {
Position pos;
for (std::string line; std::getline(std::cin, line);) {
pos.move(line);
}
auto dist = pos.distance();
std::cout << "Distance: " << dist << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
enum class Heading { North = 'N', East = 'E', South = 'S', West = 'W' };
struct Position {
Position() : x_(0), y_(0), wx_(10), wy_(1), head_(Heading::East) {}
void move(std::string const &s) {
char act = s[0];
int dist = std::stoi(s.substr(1));
switch (act) {
case 'N':
case 'E':
case 'S':
case 'W':
move_way(dist, static_cast<Heading>(act));
break;
case 'F':
x_ += wx_ * dist;
y_ += wy_ * dist;
break;
case 'L':
rotate_left(dist);
break;
case 'R':
rotate_left(360 - dist);
break;
default:
assert(false);
}
std::cout << s << ": Pos = (" << x_ << ", " << y_ << "), Way = (" << wx_
<< ", " << wy_ << ")\n";
}
void move_way(int dist, Heading head) {
switch (head) {
case Heading::North:
wy_ += dist;
break;
case Heading::East:
wx_ += dist;
break;
case Heading::South:
wy_ -= dist;
break;
case Heading::West:
wx_ -= dist;
break;
default:
assert(false);
break;
}
}
void rotate_left(int deg) {
/* We want the rang [-180, 180]. */
while (deg < -180) {
deg += 360;
}
while (deg > 180) {
deg -= 360;
}
if (deg == -90) {
int px = wx_;
int py = wy_;
wx_ = py;
wy_ = -px;
} else if (deg == 90) {
int px = wx_;
int py = wy_;
wx_ = -py;
wy_ = px;
} else if (deg == 180 || deg == -180) {
wx_ = -wx_;
wy_ = -wy_;
} else if (deg != 0) {
assert(false);
}
}
int distance() const noexcept { return std::abs(x_) + std::abs(y_); }
int x_;
int y_;
int wx_;
int wy_;
Heading head_;
};
int main(int argc, char **argv) {
Position pos;
for (std::string line; std::getline(std::cin, line);) {
pos.move(line);
}
auto dist = pos.distance();
std::cout << "Distance: " << dist << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <climits>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
using Time = unsigned long;
int main(int argc, char **argv) {
Time arrival;
Time closest = ULONG_MAX;
Time closest_id = 0;
std::string line;
std::getline(std::cin, line);
arrival = std::stoul(line);
std::cout << "Arrival time: " << arrival << "\n";
std::string buses;
std::getline(std::cin, buses);
std::string::size_type pos = 0;
while (pos < buses.size()) {
if (buses[pos] == ',' || buses[pos] == 'x') {
++pos;
continue;
}
std::string::size_type len = 0;
Time depart = std::stoul(buses.substr(pos), &len);
pos += len;
auto next_departure_in = depart - (arrival % depart);
if (next_departure_in == depart) {
next_departure_in = 0;
}
std::cout << "Bus #" << depart
<< " previous departure: " << (arrival / depart) * depart
<< ", next departure in: " << next_departure_in << "\n";
if (next_departure_in < closest) {
closest = next_departure_in;
closest_id = depart;
}
}
std::cout << "Next departure # " << closest_id << " in " << closest
<< " minutes.\n";
std::cout << "Result = " << closest * closest_id << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <climits>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
using Time = unsigned long;
using IDPair = std::pair<Time, Time>;
using IDVector = std::vector<IDPair>;
int main(int argc, char **argv) {
std::string line;
std::getline(std::cin, line); // Ignore first line
std::string buses;
std::getline(std::cin, buses);
std::string::size_type pos = 0;
Time offset = 0;
IDVector ids;
while (pos < buses.size()) {
if (buses[pos] == ',') {
++pos;
continue;
} else if (buses[pos] == 'x') {
++offset;
++pos;
continue;
}
std::string::size_type len = 0;
Time depart = std::stoul(buses.substr(pos), &len);
std::cout << "Bus #" << depart << " at offset " << offset << "\n";
ids.push_back(std::make_pair(depart, offset));
pos += len;
++offset;
}
// Make assumption that all bus IDs are co-prime.
Time t = 0;
Time t_incr = 1;
for (auto const &bus : ids) {
while ((t + bus.second) % bus.first != 0) {
t += t_incr;
}
std::cout << "Bus #" << bus.first << " at offset " << bus.second
<< " t = " << t << "\n";
t_incr *= bus.first;
}
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
using Data = std::uint64_t;
using Mem = std::vector<Data>;
struct Computer {
Computer() : set_(0), clear_(0), mem_() {}
void add_instruction(std::string const &s) {
static const std::regex re("mem\\[(\\d+)\\] = (\\d+)");
std::smatch m;
if (s.substr(0, 4) == "mask") {
set_ = 0;
clear_ = 0;
for (auto c : s.substr(7)) {
set_ <<= 1;
clear_ <<= 1;
set_ |= (c == '1');
clear_ |= (c != '0');
}
std::cout << "mask set: " << std::hex << set_ << "\n";
std::cout << "mask clear: " << std::hex << clear_ << "\n";
} else if (std::regex_search(s, m, re)) {
Data loc = std::stoul(m.str(1));
Data value = std::stoul(m.str(2));
std::cout << "mem[" << std::dec << loc << " = (" << value << " | " << set_
<< ") & " << clear_ << " = ";
value = (value | set_) & clear_;
std::cout << value << "\n";
if (mem_.size() <= loc) {
mem_.resize(loc + 1, 0);
}
mem_[loc] = value;
}
}
Data mem_sum() const noexcept {
Data r = 0;
for (auto v : mem_) {
r += v;
}
return r;
}
Data set_;
Data clear_;
Mem mem_;
};
int main(int argc, char **argv) {
Computer c;
std::string line;
while (std::getline(std::cin, line)) {
c.add_instruction(line);
}
std::cout << "Memory sum: " << std::dec << c.mem_sum() << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
using Data = std::uint64_t;
using Mem = std::map<Data, Data>;
struct Computer {
void add_instruction(std::string const &s) {
static const std::regex re("mem\\[(\\d+)\\] = (\\d+)");
std::smatch m;
if (s.substr(0, 4) == "mask") {
std::string mask = s.substr(7);
std::reverse(mask.begin(), mask.end());
set_ = 0;
bits_.clear();
std::size_t bit = 0;
std::cout << "Bitmask: floating bits: ";
for (auto c : mask) {
if (c == '1') {
set_ |= Data(1) << bit;
} else if (c == 'X') {
bits_.push_back(std::size_t(1) << bit);
std::cout << bit << " (" << (std::size_t(1) << bit) << ") ";
} else {
assert(c == '0');
}
++bit;
}
assert(bit == mask.size());
std::cout << " set: 0x" << std::hex << set_ << std::dec << "\n";
} else if (std::regex_search(s, m, re)) {
Data loc = std::stoul(m.str(1));
Data value = std::stoul(m.str(2));
set_mem(loc, value);
}
}
void set_mem(Data loc, Data value) {
std::cout << "Writing: " << value << " to base loc " << std::hex << loc
<< " which floats to:";
for (auto b : bits_) {
loc &= ~b;
}
for (std::size_t i = 0; i < (1 << bits_.size()); ++i) {
auto l = loc | set_;
for (std::size_t j = 0; j < bits_.size(); ++j) {
if (i & (std::size_t(1) << j)) {
l |= bits_[j];
}
}
std::cout << " " << l;
auto [it, success] = mem_.insert({l, value});
if (!success) {
it->second = value;
}
}
std::cout << std::dec << "\n";
}
Data mem_sum() const noexcept {
Data r = 0;
for (auto v : mem_) {
r += v.second;
}
return r;
}
Data set_;
std::vector<std::size_t> bits_;
Mem mem_;
};
int main(int argc, char **argv) {
Computer c;
std::string line;
while (std::getline(std::cin, line)) {
c.add_instruction(line);
}
std::cout << "Memory sum: " << std::dec << c.mem_sum() << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
using NumMap = std::map<int, int>;
int add_to_map(NumMap &nums, int num, int turn) {
auto [it, success] = nums.insert({num, turn});
if (success) {
// std::cout << "Turn " << turn << ": " << num << " (new)\n";
return 0;
} else {
int r = turn - it->second;
// std::cout << "Turn " << turn << ": " << num << " (previous seen turn "
// << it->second << " dist = " << r << ")\n";
it->second = turn;
return r;
}
}
int run(std::string const &s, int num_turns) {
NumMap seen;
std::size_t pos = 0;
std::size_t len;
int next_num = 0;
int turn = 1;
while (pos < s.size()) {
int num = std::stoi(s.substr(pos), &len);
pos += len;
while (pos < s.size() && s[pos] == ',') {
++pos;
}
next_num = add_to_map(seen, num, turn);
++turn;
}
while (turn < num_turns) {
next_num = add_to_map(seen, next_num, turn);
++turn;
}
return next_num;
}
int main(int argc, char **argv) {
std::string line;
while (std::getline(std::cin, line)) {
int r = run(line, 2020);
std::cout << "2020'th number: " << r << "\n";
}
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
#include <unordered_map>
using NumMap = std::unordered_map<int, int>;
int add_to_map(NumMap &nums, int num, int turn) {
auto [it, success] = nums.insert({num, turn});
if (success) {
// std::cout << "Turn " << turn << ": " << num << " (new)\n";
return 0;
} else {
int r = turn - it->second;
// std::cout << "Turn " << turn << ": " << num << " (previous seen turn "
// << it->second << " dist = " << r << ")\n";
it->second = turn;
return r;
}
}
int run(std::string const &s, int num_turns) {
NumMap seen;
std::size_t pos = 0;
std::size_t len;
int next_num = 0;
int turn = 1;
while (pos < s.size()) {
int num = std::stoi(s.substr(pos), &len);
pos += len;
while (pos < s.size() && s[pos] == ',') {
++pos;
}
next_num = add_to_map(seen, num, turn);
++turn;
}
while (turn < num_turns) {
next_num = add_to_map(seen, next_num, turn);
++turn;
}
return next_num;
}
int main(int argc, char **argv) {
std::string line;
while (std::getline(std::cin, line)) {
int r = run(line, 30000000);
std::cout << "30000000th number: " << r << "\n";
}
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
using ValidVector = std::vector<bool>;
struct Classifier {
void add_ranges(std::string const &s) {
static const std::regex re("(\\w+): (\\d+)-(\\d+) or (\\d+)-(\\d+)");
std::smatch m;
if (std::regex_search(s, m, re)) {
std::cout << m.str(1) << "valid = ";
add_range(m.str(2), m.str(3));
std::cout << ", ";
add_range(m.str(4), m.str(5));
std::cout << "\n";
}
}
void add_range(std::string const &lows, std::string const &highs) {
int low = std::stoi(lows);
int high = std::stoi(highs);
++high;
if (vecs_.size() < high) {
vecs_.resize(high, false);
}
std::cout << "[" << low << ", " << high << "]";
while (low < high) {
vecs_[low] = true;
++low;
}
}
int count_errors(std::string const &s) {
std::string::size_type pos = 0;
int result = 0;
while (pos < s.size()) {
std::size_t len = 0;
int num = std::stoi(s.substr(pos), &len);
if (!vecs_[num]) {
result += num;
std::cout << "Invalid: " << num << "\n";
}
pos += len;
while (pos < s.size() && s[pos] == ',') {
++pos;
}
}
return result;
}
ValidVector vecs_;
};
enum class State { Permitted, Your, Nearby };
int main(int argc, char **argv) {
std::string line;
State s = State::Permitted;
Classifier c;
int e = 0;
while (std::getline(std::cin, line)) {
if (line == "your ticket:") {
s = State::Your;
} else if (line == "nearby tickets:") {
s = State::Nearby;
} else if (line == "") {
/* nothing */;
} else if (s == State::Permitted) {
c.add_ranges(line);
} else if (s == State::Nearby) {
e += c.count_errors(line);
}
}
std::cout << "Error count: " << e << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <string>
struct Classifier {
void add_ranges(std::string const &s) {
static const std::regex re("(.+): (\\d+)-(\\d+) or (\\d+)-(\\d+)");
std::smatch m;
if (std::regex_search(s, m, re)) {
auto field = field_names_.size();
field_names_.push_back(m.str(1));
std::cout << m.str(1) << "valid = ";
add_range(m.str(2), m.str(3), field);
std::cout << ", ";
add_range(m.str(4), m.str(5), field);
std::cout << "\n";
}
}
void add_range(std::string const &lows, std::string const &highs,
std::size_t field) {
int low = std::stoi(lows);
int high = std::stoi(highs);
++high;
unsigned flag = 1 << field;
assert(flag != 0);
if (num_to_valid_field_.size() < high) {
num_to_valid_field_.resize(high, 0);
}
std::cout << "[" << low << ", " << high << "]";
while (low < high) {
num_to_valid_field_[low] |= flag;
++low;
}
}
void close() {
idx_to_valid_field_.resize(0);
idx_to_valid_field_.resize(field_names_.size(),
(1 << field_names_.size()) - 1);
}
int count_errors(std::string const &s) const {
std::string::size_type pos = 0;
int result = 0;
while (pos < s.size()) {
std::size_t len = 0;
int num = std::stoi(s.substr(pos), &len);
if (num >= num_to_valid_field_.size() || num_to_valid_field_[num] == 0) {
result += num == 0 ? 1 : num;
std::cout << "Invalid: " << num << "\n";
}
pos += len;
while (pos < s.size() && s[pos] == ',') {
++pos;
}
}
return result;
}
void mark_valid(std::string const &s) {
std::string::size_type pos = 0;
unsigned idx = 0;
while (pos < s.size()) {
std::size_t len = 0;
int num = std::stoi(s.substr(pos), &len);
unsigned valid_fields =
num >= num_to_valid_field_.size() ? 0 : num_to_valid_field_[num];
idx_to_valid_field_[idx] &= valid_fields;
pos += len;
while (pos < s.size() && s[pos] == ',') {
++pos;
}
assert(idx_to_valid_field_[idx] != 0);
++idx;
}
}
void print_valid() const {
for (std::size_t idx = 0; idx < idx_to_valid_field_.size(); ++idx) {
std::cout << "Index " << idx << " valid for fields:";
unsigned field = 0;
for (auto valid_fields = idx_to_valid_field_[idx]; valid_fields != 0;
valid_fields >>= 1) {
if (valid_fields & 1) {
std::cout << " " << field_names_[field];
}
++field;
}
std::cout << "\n";
}
}
void reduce() {
bool changed = true;
while (changed) {
changed = false;
for (unsigned idx = 0; idx < idx_to_valid_field_.size(); ++idx) {
auto valid_fields = idx_to_valid_field_[idx];
if ((valid_fields & (valid_fields - 1)) == 0) {
std::cout << "Index " << idx << " can only be field " << valid_fields
<< "\n";
for (unsigned idx2 = 0; idx2 < idx_to_valid_field_.size(); ++idx2) {
if (idx == idx2) {
continue;
}
changed |= (idx_to_valid_field_[idx2] & valid_fields) != 0;
idx_to_valid_field_[idx2] &= ~valid_fields;
}
}
}
}
}
unsigned long calculate_product(std::string const &s,
std::string const &prefix) {
std::vector<unsigned> values;
std::size_t pos = 0;
while (pos < s.size()) {
if (s[pos] == ',') {
++pos;
} else {
std::size_t len;
values.push_back(std::stoi(s.substr(pos), &len));
pos += len;
}
}
unsigned long product = 1;
for (unsigned field = 0; field < field_names_.size(); ++field) {
if (field_names_[field].substr(0, prefix.size()) == prefix) {
unsigned idx = 0;
while (idx < idx_to_valid_field_.size() &&
idx_to_valid_field_[idx] != (1 << field)) {
++idx;
}
assert(idx < idx_to_valid_field_.size());
product *= values[idx];
}
}
return product;
}
std::vector<unsigned> num_to_valid_field_;
std::vector<unsigned> idx_to_valid_field_;
std::vector<std::string> field_names_;
};
enum class State { Permitted, Your, Nearby };
int main(int argc, char **argv) {
std::string line;
State s = State::Permitted;
Classifier c;
int e = 0;
std::string our_ticket;
while (std::getline(std::cin, line)) {
if (line == "your ticket:") {
s = State::Your;
} else if (line == "nearby tickets:") {
s = State::Nearby;
c.close();
} else if (line == "") {
/* nothing */;
} else if (s == State::Permitted) {
c.add_ranges(line);
} else if (s == State::Your) {
our_ticket = line;
} else if (s == State::Nearby) {
auto e2 = c.count_errors(line);
e += e2;
if (e2 == 0) {
c.mark_valid(line);
}
}
}
c.print_valid();
c.reduce();
c.print_valid();
std::cout << "Product: " << c.calculate_product(our_ticket, "departure ")
<< "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <tuple>
struct ConwayCubeState {
using Point = std::tuple<int, int, int>;
using PointSet = std::set<Point>;
using NeighbourMap = std::map<Point, unsigned>;
ConwayCubeState() : next_row_(0) {}
void add_row(std::string const &s) {
for (int x = 0; x < s.size(); ++x) {
if (s[x] == '#') {
set_point(x, next_row_, 0);
}
}
++next_row_;
}
ConwayCubeState next_state() const {
ConwayCubeState next;
for (auto const &n : neighbours_) {
bool active = points_.find(n.first) != points_.end();
if (active && (n.second == 2 || n.second == 3)) {
next.set_point(n.first);
} else if (!active && n.second == 3) {
next.set_point(n.first);
}
}
return next;
}
auto active() const { return points_.size(); }
private:
void set_point(Point const &pt) {
set_point(std::get<0>(pt), std::get<1>(pt), std::get<2>(pt));
}
void set_point(int px, int py, int pz) {
points_.insert({px, py, pz});
for (int x = px - 1; x < px + 2; ++x) {
for (int y = py - 1; y < py + 2; ++y) {
for (int z = pz - 1; z < pz + 2; ++z) {
if (x == px && y == py && z == pz) {
continue;
}
auto [it, success] = neighbours_.insert({{x, y, z}, 1});
if (!success) {
assert(it != neighbours_.end());
it->second += 1;
}
}
}
}
}
int next_row_;
PointSet points_;
NeighbourMap neighbours_;
};
int main(void) {
std::string line;
ConwayCubeState state;
while (std::getline(std::cin, line)) {
state.add_row(line);
std::cout << line << "\n";
}
std::cout << "Initial active count = " << state.active() << "\n";
for (unsigned i = 0; i < 6; ++i) {
state = state.next_state();
std::cout << i + 1 << ": active count = " << state.active() << "\n";
}
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <tuple>
struct ConwayCubeState {
using Point = std::tuple<int, int, int, int>;
using PointSet = std::set<Point>;
using NeighbourMap = std::map<Point, unsigned>;
ConwayCubeState() : next_row_(0) {}
void add_row(std::string const &s) {
for (int x = 0; x < s.size(); ++x) {
if (s[x] == '#') {
set_point(x, next_row_, 0, 0);
}
}
++next_row_;
}
ConwayCubeState next_state() const {
ConwayCubeState next;
for (auto const &n : neighbours_) {
bool active = points_.find(n.first) != points_.end();
if (active && (n.second == 2 || n.second == 3)) {
next.set_point(n.first);
} else if (!active && n.second == 3) {
next.set_point(n.first);
}
}
return next;
}
auto active() const { return points_.size(); }
private:
void set_point(Point const &pt) {
set_point(std::get<0>(pt), std::get<1>(pt), std::get<2>(pt),
std::get<3>(pt));
}
void set_point(int pw, int px, int py, int pz) {
points_.insert({pw, px, py, pz});
for (int w = pw - 1; w < pw + 2; ++w) {
for (int x = px - 1; x < px + 2; ++x) {
for (int y = py - 1; y < py + 2; ++y) {
for (int z = pz - 1; z < pz + 2; ++z) {
if (w == pw && x == px && y == py && z == pz) {
continue;
}
auto [it, success] = neighbours_.insert({{w, x, y, z}, 1});
if (!success) {
assert(it != neighbours_.end());
it->second += 1;
}
}
}
}
}
}
int next_row_;
PointSet points_;
NeighbourMap neighbours_;
};
int main(void) {
std::string line;
ConwayCubeState state;
while (std::getline(std::cin, line)) {
state.add_row(line);
std::cout << line << "\n";
}
std::cout << "Initial active count = " << state.active() << "\n";
for (unsigned i = 0; i < 6; ++i) {
state = state.next_state();
std::cout << i + 1 << ": active count = " << state.active() << "\n";
}
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <tuple>
enum class Token : char {
Eof,
Number,
LParens = '(',
RParens = ')',
Add = '+',
Multiply = '*'
};
using Value = unsigned long;
struct Parser {
Parser(std::string const &s) : expr_(s), pos_(0) { skip_whitespace(); }
Value evaluate() { return binop(); }
private:
Value binop() {
auto value = primary();
do {
if (peek() == Token::Add) {
chew(Token::Add);
value += primary();
} else if (peek() == Token::Multiply) {
chew(Token::Multiply);
value *= primary();
} else {
return value;
}
} while (true);
}
Value primary() {
if (peek() == Token::LParens) {
chew(Token::LParens);
Value value = binop();
chew(Token::RParens);
return value;
} else if (peek() == Token::Number) {
return chew_number();
} else {
std::cout << "expr_ = " << expr_ << "\n";
std::cout << "pos_ = " << pos_ << "\n";
std::cout << "End = " << expr_.substr(pos_) << "\n";
assert(false);
}
}
Token peek() {
if (pos_ == expr_.size()) {
return Token::Eof;
}
switch (expr_[pos_]) {
case '(':
return Token::LParens;
case ')':
return Token::RParens;
case '+':
return Token::Add;
case '*':
return Token::Multiply;
case '-':
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
return Token::Number;
default:
std::cout << "expr_ = " << expr_ << "\n";
std::cout << "pos_ = " << pos_ << "\n";
std::cout << "End = " << expr_.substr(pos_) << "\n";
assert(false);
}
}
void chew(Token tok) {
assert(peek() == tok);
switch (tok) {
case Token::LParens:
case Token::RParens:
case Token::Add:
case Token::Multiply:
++pos_;
skip_whitespace();
break;
default:
assert(false);
}
}
void skip_whitespace() {
while (pos_ < expr_.size() && expr_[pos_] == ' ') {
++pos_;
}
}
Value chew_number() {
assert(peek() == Token::Number);
std::size_t len = 0;
Value value = std::stoul(expr_.substr(pos_), &len);
pos_ += len;
skip_whitespace();
return value;
}
std::string expr_;
std::string::size_type pos_;
};
int main(void) {
std::string line;
Value result = 0;
while (std::getline(std::cin, line)) {
Parser p(line);
Value r = p.evaluate();
std::cout << line << " = " << r << "\n";
result += r;
}
std::cout << "Sum: " << result << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <tuple>
enum class Token : char {
Eof,
Number,
LParens = '(',
RParens = ')',
Add = '+',
Multiply = '*'
};
using Value = unsigned long;
struct Parser {
Parser(std::string const &s) : expr_(s), pos_(0) { skip_whitespace(); }
Value evaluate() { return multop(); }
private:
Value addop() {
auto value = primary();
do {
if (peek() == Token::Add) {
chew(Token::Add);
value += primary();
} else {
return value;
}
} while (true);
}
Value multop() {
auto value = addop();
do {
if (peek() == Token::Multiply) {
chew(Token::Multiply);
value *= addop();
} else {
return value;
}
} while (true);
}
Value primary() {
if (peek() == Token::LParens) {
chew(Token::LParens);
Value value = evaluate();
chew(Token::RParens);
return value;
} else if (peek() == Token::Number) {
return chew_number();
} else {
std::cout << "expr_ = " << expr_ << "\n";
std::cout << "pos_ = " << pos_ << "\n";
std::cout << "End = " << expr_.substr(pos_) << "\n";
assert(false);
}
}
Token peek() {
if (pos_ == expr_.size()) {
return Token::Eof;
}
switch (expr_[pos_]) {
case '(':
return Token::LParens;
case ')':
return Token::RParens;
case '+':
return Token::Add;
case '*':
return Token::Multiply;
case '-':
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
return Token::Number;
default:
std::cout << "expr_ = " << expr_ << "\n";
std::cout << "pos_ = " << pos_ << "\n";
std::cout << "End = " << expr_.substr(pos_) << "\n";
assert(false);
}
}
void chew(Token tok) {
assert(peek() == tok);
switch (tok) {
case Token::LParens:
case Token::RParens:
case Token::Add:
case Token::Multiply:
++pos_;
skip_whitespace();
break;
default:
assert(false);
}
}
void skip_whitespace() {
while (pos_ < expr_.size() && expr_[pos_] == ' ') {
++pos_;
}
}
Value chew_number() {
assert(peek() == Token::Number);
std::size_t len = 0;
Value value = std::stoul(expr_.substr(pos_), &len);
pos_ += len;
skip_whitespace();
return value;
}
std::string expr_;
std::string::size_type pos_;
};
int main(void) {
std::string line;
Value result = 0;
while (std::getline(std::cin, line)) {
Parser p(line);
Value r = p.evaluate();
std::cout << line << " = " << r << "\n";
result += r;
}
std::cout << "Sum: " << result << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <tuple>
struct Matcher {
void add_rule(std::string const &s) {
std::size_t len = 0;
unsigned long id = std::stoul(s, &len);
assert(s[len] == ':');
++len;
while (s[len] == ' ') {
++len;
}
if (rules_.size() <= id) {
rules_.resize(id + 1);
}
rules_[id] = s.substr(len);
}
void calculate_regex() { re_.assign("^" + expand_rule(0) + "$"); }
bool does_match(std::string const &s) const {
return std::regex_match(s, re_);
}
private:
std::string expand_rule(std::size_t id) {
std::string re;
std::string const &rule = rules_[id];
std::size_t pos = 0;
bool needs_brackets = false;
while (pos < rule.size()) {
if (rule[pos] == ' ') {
++pos;
} else if (rule[pos] == '|') {
re += "|";
needs_brackets = true;
++pos;
} else if (rule[pos] == '"') {
++pos;
while (pos < rule.size() && rule[pos] != '"') {
re += rule[pos];
++pos;
}
assert(pos < rule.size());
assert(rule[pos] == '"');
++pos;
} else if (std::isdigit(rule[pos])) {
std::size_t len = 0;
std::size_t subid = std::stoul(rule.substr(pos), &len);
pos += len;
re += expand_rule(subid);
} else {
assert(false);
}
}
if (needs_brackets) {
re = "(" + re + ")";
}
std::cout << "Rule " << id << " expands to: " << re << "\n";
return re;
}
std::vector<std::string> rules_;
std::regex re_;
};
int main(void) {
std::string line;
Matcher matcher;
bool adding_rules = true;
unsigned matches = 0;
while (std::getline(std::cin, line)) {
if (line.empty()) {
adding_rules = false;
matcher.calculate_regex();
} else if (adding_rules) {
matcher.add_rule(line);
} else {
bool m = matcher.does_match(line);
std::cout << line << ": does " << (m ? "" : "not ") << "match\n";
matches += m;
}
}
std::cout << "Total number of matches: " << matches << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <tuple>
struct Matcher {
void add_rule(std::string const &s) {
std::size_t len = 0;
unsigned long id = std::stoul(s, &len);
assert(s[len] == ':');
++len;
while (s[len] == ' ') {
++len;
}
if (rules_.size() <= id) {
rules_.resize(id + 1);
}
rules_[id] = s.substr(len);
}
void calculate_regex() {
re42_ = expand_rule(42);
re31_ = expand_rule(31);
}
bool does_match(std::string const &s) const {
std::smatch m;
std::string begin = "^" + re42_ + re42_;
unsigned repeats = 1;
while (std::regex_search(s, m, std::regex(begin))) {
std::string end = re31_ + "$";
std::string suffix = m.suffix();
for (unsigned i = 0; i < repeats; ++i) {
if (std::regex_search(suffix, std::regex("^" + end))) {
return true;
}
end = re31_ + end;
}
begin += re42_;
++repeats;
}
return false;
}
private:
std::string expand_rule(std::size_t id) {
std::string re;
std::string const &rule = rules_[id];
std::size_t pos = 0;
bool needs_brackets = false;
while (pos < rule.size()) {
if (rule[pos] == ' ') {
++pos;
} else if (rule[pos] == '|') {
re += "|";
needs_brackets = true;
++pos;
} else if (rule[pos] == '"') {
++pos;
while (pos < rule.size() && rule[pos] != '"') {
re += rule[pos];
++pos;
}
assert(pos < rule.size());
assert(rule[pos] == '"');
++pos;
} else if (std::isdigit(rule[pos])) {
std::size_t len = 0;
std::size_t subid = std::stoul(rule.substr(pos), &len);
pos += len;
re += expand_rule(subid);
} else {
assert(false);
}
}
if (needs_brackets) {
re = "(" + re + ")";
}
std::cout << "Rule " << id << " expands to: " << re << "\n";
return re;
}
std::vector<std::string> rules_;
std::string re42_;
std::string re31_;
};
int main(void) {
std::string line;
Matcher matcher;
bool adding_rules = true;
unsigned matches = 0;
while (std::getline(std::cin, line)) {
if (line.empty()) {
adding_rules = false;
matcher.calculate_regex();
} else if (adding_rules) {
matcher.add_rule(line);
} else {
bool m = matcher.does_match(line);
std::cout << line << ": does " << (m ? "" : "not ") << "match\n";
matches += m;
}
}
std::cout << "Total number of matches: " << matches << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <tuple>
using Id = unsigned long;
using Hash = unsigned long;
enum Edge { Top, Left, Bottom, Right };
struct Picture {
Picture(std::string id, std::istream &is) : in_use_(false) {
assert(id.substr(0, 5) == "Tile ");
id_ = std::stoul(id.substr(5));
std::string line;
while (std::getline(is, line)) {
if (line.empty()) {
return;
}
rows_.push_back(line);
}
}
Picture(Picture const &) = delete;
Picture &operator=(Picture const &) = delete;
Picture(Picture &&) = default;
Picture &operator=(Picture &&) = default;
void flip() {
for (auto &r : rows_) {
std::reverse(r.begin(), r.end());
}
}
void rotate() {
std::vector<std::string> copy(rows_.size());
for (auto const &r : rows_) {
std::size_t off = copy.size();
assert(r.size() == copy.size());
for (auto c : r) {
copy[--off] += c;
}
assert(off == 0);
}
rows_ = copy;
}
Hash hash(Edge edge) const {
unsigned x = (edge == Edge::Right) ? rows_[0].size() - 1 : 0;
unsigned y = (edge == Edge::Bottom) ? rows_.size() - 1 : 0;
unsigned dx = (edge == Edge::Top || edge == Edge::Bottom) ? 1 : 0;
unsigned dy = (edge == Edge::Left || edge == Edge::Right) ? 1 : 0;
Hash hash = 0;
for (unsigned i = 0; i < rows_.size(); ++i) {
hash <<= 1;
hash |= (rows_[y][x] == '#');
y += dy;
x += dx;
}
return hash;
}
Id id() const noexcept { return id_; }
bool operator<(Picture const &pict) const noexcept { return id_ < pict.id_; }
bool operator==(Picture const &pict) const noexcept {
return id_ == pict.id_;
}
bool in_use() const noexcept { return in_use_; }
void use() noexcept { in_use_ = true; }
void release() noexcept { in_use_ = false; }
private:
Id id_;
std::vector<std::string> rows_;
bool in_use_;
};
using Pictures = std::map<Id, Picture>;
using HashMap = std::multimap<Hash, Id>;
using Array = std::map<std::pair<unsigned, unsigned>, Id>;
struct PictureArray {
void add(Picture &&pic) {
auto id = pic.id();
auto [it, success] = pictures_.insert(std::make_pair(id, std::move(pic)));
assert(success);
// Set up hash -> ID mapping
Picture &picture = it->second;
for (unsigned r = 0; r < 4; ++r) {
for (unsigned f = 0; f < 2; ++f) {
hash_map_.insert({picture.hash(Edge::Top), picture.id()});
picture.flip();
}
picture.rotate();
}
}
Id solve() {
assert(pictures_.size() == 9 || pictures_.size() == 144);
for (auto &kv : pictures_) {
if (try_position(0, 0, kv.second)) {
print_ids();
return piece(0, 0).id() * piece(width() - 1, 0).id() *
piece(0, height() - 1).id() *
piece(width() - 1, height() - 1).id();
}
}
assert(false);
return 0;
}
private:
bool try_position(unsigned x, unsigned y, Picture &pict) {
if (pict.in_use()) {
return false;
}
auto [it, success] = array_.insert({{x, y}, pict.id()});
if (!success) {
it->second = pict.id();
}
pict.use();
for (unsigned r = 0; r < 4; ++r) {
pict.rotate();
for (unsigned f = 0; f < 2; ++f) {
pict.flip();
if (x > 0) {
if (piece(x - 1, y).hash(Edge::Right) != pict.hash(Edge::Left)) {
continue;
}
}
if (y > 0) {
if (piece(x, y - 1).hash(Edge::Bottom) != pict.hash(Edge::Top)) {
continue;
}
}
auto next_x = x + 1;
auto next_y = y;
Hash hash = pict.hash(Edge::Right);
if (next_x == width()) {
next_x = 0;
next_y = y + 1;
hash = piece(0, y).hash(Edge::Bottom);
}
if (next_y == height()) {
return true;
}
auto [it, ite] = hash_map_.equal_range(hash);
while (it != ite) {
auto itp = pictures_.find(it->second);
assert(itp != pictures_.end());
if (try_position(next_x, next_y, itp->second)) {
return true;
}
++it;
}
}
}
pict.release();
return false;
}
void print_ids() const {
for (unsigned y = 0; y < height(); ++y) {
for (unsigned x = 0; x < width(); ++x) {
std::cout << " " << piece(x, y).id();
}
std::cout << "\n";
}
}
Picture const &piece(unsigned x, unsigned y) const {
auto const &it = array_.find({x, y});
assert(it != array_.end());
auto const &itp = pictures_.find(it->second);
assert(itp != pictures_.end());
return itp->second;
}
unsigned width() const noexcept {
if (pictures_.size() == 9) {
return 3;
} else if (pictures_.size() == 144) {
return 12;
} else {
assert(false);
}
return 0;
}
unsigned height() const noexcept { return width(); }
Pictures pictures_;
HashMap hash_map_;
Array array_;
};
int main(void) {
PictureArray pictures_;
std::string line;
while (std::getline(std::cin, line)) {
if (line.empty()) {
continue;
}
Picture pic(line, std::cin);
pictures_.add(std::move(pic));
}
auto solution = pictures_.solve();
std::cout << "Product = " << solution << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <tuple>
using Id = unsigned long;
using Hash = unsigned long;
enum Edge { Top, Left, Bottom, Right };
struct PictureArray;
struct Picture {
Picture(std::string id, std::istream &is) : in_use_(false) {
assert(id.substr(0, 5) == "Tile ");
id_ = std::stoul(id.substr(5));
std::string line;
while (std::getline(is, line)) {
if (line.empty()) {
return;
}
rows_.push_back(line);
}
}
Picture(PictureArray const &array);
Picture(Picture const &) = delete;
Picture &operator=(Picture const &) = delete;
Picture(Picture &&) = default;
Picture &operator=(Picture &&) = default;
void flip() {
for (auto &r : rows_) {
std::reverse(r.begin(), r.end());
}
}
void rotate() {
std::vector<std::string> copy(rows_.size());
for (auto const &r : rows_) {
std::size_t off = copy.size();
assert(r.size() == copy.size());
for (auto c : r) {
copy[--off] += c;
}
assert(off == 0);
}
rows_ = copy;
}
Hash hash(Edge edge) const {
unsigned x = (edge == Edge::Right) ? rows_[0].size() - 1 : 0;
unsigned y = (edge == Edge::Bottom) ? rows_.size() - 1 : 0;
unsigned dx = (edge == Edge::Top || edge == Edge::Bottom) ? 1 : 0;
unsigned dy = (edge == Edge::Left || edge == Edge::Right) ? 1 : 0;
Hash hash = 0;
for (unsigned i = 0; i < rows_.size(); ++i) {
hash <<= 1;
hash |= (rows_[y][x] == '#');
y += dy;
x += dx;
}
return hash;
}
Id id() const noexcept { return id_; }
bool operator<(Picture const &pict) const noexcept { return id_ < pict.id_; }
bool operator==(Picture const &pict) const noexcept {
return id_ == pict.id_;
}
bool in_use() const noexcept { return in_use_; }
void use() noexcept { in_use_ = true; }
void release() noexcept { in_use_ = false; }
friend std::ostream &operator<<(std::ostream &os, Picture const &pict);
unsigned find_monsters() {
for (unsigned r = 0; r < 4; ++r) {
rotate();
for (unsigned f = 0; f < 2; ++f) {
flip();
auto monster_count = find_monsters1();
if (monster_count > 0) {
return monster_count;
}
}
}
return 0;
}
unsigned roughness() const {
unsigned rough = 0;
for (auto const &r : rows_) {
for (auto c : r) {
if (c == '#') {
++rough;
}
}
}
return rough;
}
private:
unsigned find_monsters1() {
// 0 1
// 01234567890123456789
// #
// # ## ## ###
// # # # # # #
static const std::string::size_type locs[] = {18,
std::string::npos,
0,
5,
6,
11,
12,
17,
18,
19,
std::string::npos,
1,
4,
7,
10,
13,
16,
std::string::npos,
std::string::npos};
static const std::string::size_type mwidth = 20;
static const std::size_t mheight = 3;
unsigned monster_count = 0;
for (std::size_t y = 0; y <= rows_.size() - mheight; ++y) {
for (std::string::size_type x = 0; x <= rows_[y].size() - mwidth; ++x) {
std::size_t cy = 0;
std::string::size_type const *cx = locs;
bool found = true;
while (cy < mheight) {
if (*cx == std::string::npos) {
++cy;
} else if (rows_[y + cy][x + *cx] != '#') {
found = false;
break;
}
++cx;
}
if (found) {
++monster_count;
std::size_t cy = 0;
std::string::size_type const *cx = locs;
while (cy < mheight) {
if (*cx == std::string::npos) {
++cy;
} else {
rows_[y + cy][x + *cx] = '*';
}
++cx;
}
}
}
}
return monster_count;
}
private:
Id id_;
std::vector<std::string> rows_;
bool in_use_;
};
std::ostream &operator<<(std::ostream &os, Picture const &pict) {
for (auto const &r : pict.rows_) {
os << r << '\n';
}
return os;
}
using Pictures = std::map<Id, Picture>;
using HashMap = std::multimap<Hash, Id>;
using Array = std::map<std::pair<unsigned, unsigned>, Id>;
struct PictureArray {
void add(Picture &&pic) {
auto id = pic.id();
auto [it, success] = pictures_.insert(std::make_pair(id, std::move(pic)));
assert(success);
// Set up hash -> ID mapping
Picture &picture = it->second;
for (unsigned r = 0; r < 4; ++r) {
for (unsigned f = 0; f < 2; ++f) {
hash_map_.insert({picture.hash(Edge::Top), picture.id()});
picture.flip();
}
picture.rotate();
}
}
Id solve() {
assert(pictures_.size() == 9 || pictures_.size() == 144);
for (auto &kv : pictures_) {
if (try_position(0, 0, kv.second)) {
print_ids();
return piece(0, 0).id() * piece(width() - 1, 0).id() *
piece(0, height() - 1).id() *
piece(width() - 1, height() - 1).id();
}
}
assert(false);
return 0;
}
unsigned width() const noexcept {
if (pictures_.size() == 9) {
return 3;
} else if (pictures_.size() == 144) {
return 12;
} else {
assert(false);
}
return 0;
}
unsigned height() const noexcept { return width(); }
Picture const &piece(unsigned x, unsigned y) const {
auto const &it = array_.find({x, y});
assert(it != array_.end());
auto const &itp = pictures_.find(it->second);
assert(itp != pictures_.end());
return itp->second;
}
private:
bool try_position(unsigned x, unsigned y, Picture &pict) {
if (pict.in_use()) {
return false;
}
auto [it, success] = array_.insert({{x, y}, pict.id()});
if (!success) {
it->second = pict.id();
}
pict.use();
for (unsigned r = 0; r < 4; ++r) {
pict.rotate();
for (unsigned f = 0; f < 2; ++f) {
pict.flip();
if (x > 0) {
if (piece(x - 1, y).hash(Edge::Right) != pict.hash(Edge::Left)) {
continue;
}
}
if (y > 0) {
if (piece(x, y - 1).hash(Edge::Bottom) != pict.hash(Edge::Top)) {
continue;
}
}
auto next_x = x + 1;
auto next_y = y;
Hash hash = pict.hash(Edge::Right);
if (next_x == width()) {
next_x = 0;
next_y = y + 1;
hash = piece(0, y).hash(Edge::Bottom);
}
if (next_y == height()) {
return true;
}
auto [it, ite] = hash_map_.equal_range(hash);
while (it != ite) {
auto itp = pictures_.find(it->second);
assert(itp != pictures_.end());
if (try_position(next_x, next_y, itp->second)) {
return true;
}
++it;
}
}
}
pict.release();
return false;
}
void print_ids() const {
for (unsigned y = 0; y < height(); ++y) {
for (unsigned x = 0; x < width(); ++x) {
std::cout << " " << piece(x, y).id();
}
std::cout << "\n";
}
}
Pictures pictures_;
HashMap hash_map_;
Array array_;
};
Picture::Picture(PictureArray const &array) : id_(0), in_use_(false) {
for (unsigned y = 0; y < array.height(); ++y) {
auto ybase = rows_.size();
for (unsigned x = 0; x < array.width(); ++x) {
auto &pict = array.piece(x, y);
for (auto py = 1; py < pict.rows_.size() - 1; ++py) {
auto yidx = ybase + py - 1;
if (rows_.size() <= yidx) {
rows_.resize(yidx + 1);
}
rows_[yidx] += pict.rows_[py].substr(1, pict.rows_[py].size() - 2);
}
}
}
assert(rows_.size() == array.height() * 8);
assert(rows_[0].size() == array.width() * 8);
}
int main(void) {
PictureArray pictures_;
std::string line;
while (std::getline(std::cin, line)) {
if (line.empty()) {
continue;
}
Picture pic(line, std::cin);
pictures_.add(std::move(pic));
}
auto solution = pictures_.solve();
std::cout << "Product = " << solution << "\n";
Picture merged(pictures_);
auto monster_count = merged.find_monsters();
std::cout << merged;
std::cout << "Number of monsters: " << monster_count << "\n";
std::cout << "Roughness: " << merged.roughness() << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <tuple>
#include <vector>
using Ingredient = std::string;
using Allergen = std::string;
using Ingredients = std::set<Ingredient>;
using Allergens = std::set<Allergen>;
using IngredientInfo = std::pair<unsigned, Allergens>;
using IngredientMap = std::map<Ingredient, IngredientInfo>;
using AllergenMap = std::map<Allergen, Ingredients>;
class IngredientParser {
public:
void add_recipe(std::string const &s) {
auto it = s.begin();
Ingredients i;
while (it != s.end()) {
auto ite = std::find(it, s.end(), ' ');
auto ingredient = std::string(it, ite);
while (ite != s.end() && *ite == ' ') {
++ite;
}
it = ite;
if (ingredient == "(contains") {
break;
} else {
i.insert(ingredient);
auto [iit, success] =
ingredients_.insert({ingredient, {1, Allergens()}});
if (!success) {
iit->second.first++;
}
}
}
while (it != s.end()) {
auto ite = std::find_if(
it, s.end(), [](char c) -> bool { return c == ',' || c == ')'; });
auto allergen = std::string(it, ite);
++ite;
while (ite != s.end() && *ite == ' ') {
++ite;
}
it = ite;
auto [insert_it, success] = allergens_.insert({allergen, i});
if (!success) {
Ingredients a;
std::set_intersection(i.begin(), i.end(), insert_it->second.begin(),
insert_it->second.end(),
std::inserter(a, a.end()));
insert_it->second = a;
}
}
}
unsigned clean_ingredients() {
for (auto const &kv : allergens_) {
auto allergen = kv.first;
std::cout << "Allergen " << allergen << ":";
for (auto const &i : kv.second) {
std::cout << " " << i;
auto it = ingredients_.find(i);
assert(it != ingredients_.end());
it->second.second.insert(allergen);
}
std::cout << "\n";
}
unsigned count = 0;
for (auto const &i : ingredients_) {
if (i.second.second.size() == 0) {
std::cout << i.first << " is not an allergen, appears "
<< i.second.first << ".\n";
count += i.second.first;
}
}
return count;
}
private:
IngredientMap ingredients_;
AllergenMap allergens_;
};
int main(void) {
std::string line;
IngredientParser parser;
while (std::getline(std::cin, line)) {
parser.add_recipe(line);
}
auto clean = parser.clean_ingredients();
std::cout << "Number of clean ingredients: " << clean << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <tuple>
#include <vector>
using Ingredient = std::string;
using Allergen = std::string;
using Ingredients = std::set<Ingredient>;
using Allergens = std::set<Allergen>;
using IngredientInfo = std::pair<unsigned, Allergens>;
using IngredientMap = std::map<Ingredient, IngredientInfo>;
using AllergenMap = std::map<Allergen, Ingredients>;
class IngredientParser {
public:
void add_recipe(std::string const &s) {
auto it = s.begin();
Ingredients i;
while (it != s.end()) {
auto ite = std::find(it, s.end(), ' ');
auto ingredient = std::string(it, ite);
while (ite != s.end() && *ite == ' ') {
++ite;
}
it = ite;
if (ingredient == "(contains") {
break;
} else {
i.insert(ingredient);
auto [iit, success] =
ingredients_.insert({ingredient, {1, Allergens()}});
if (!success) {
iit->second.first++;
}
}
}
while (it != s.end()) {
auto ite = std::find_if(
it, s.end(), [](char c) -> bool { return c == ',' || c == ')'; });
auto allergen = std::string(it, ite);
++ite;
while (ite != s.end() && *ite == ' ') {
++ite;
}
it = ite;
auto [insert_it, success] = allergens_.insert({allergen, i});
if (!success) {
Ingredients a;
std::set_intersection(i.begin(), i.end(), insert_it->second.begin(),
insert_it->second.end(),
std::inserter(a, a.end()));
insert_it->second = a;
}
}
}
unsigned clean_ingredients() {
for (auto const &kv : allergens_) {
auto allergen = kv.first;
std::cout << "Allergen " << allergen << ":";
for (auto const &i : kv.second) {
std::cout << " " << i;
auto it = ingredients_.find(i);
assert(it != ingredients_.end());
it->second.second.insert(allergen);
}
std::cout << "\n";
}
unsigned count = 0;
for (auto const &i : ingredients_) {
if (i.second.second.size() == 0) {
std::cout << i.first << " is not an allergen, appears "
<< i.second.first << ".\n";
count += i.second.first;
}
}
return count;
}
std::string dangerous_ingredients() {
bool changed = true;
Ingredients i;
while (changed) {
changed = false;
for (auto const &kv : allergens_) {
if (kv.second.size() == 1) {
auto it = kv.second.begin();
Ingredient const &ing = *it;
auto [iit, success] = i.insert(ing);
if (!success) {
continue;
}
changed = true;
std::cout << "Allergen " << kv.first << " is in ingredient " << ing
<< "\n";
for (auto &kv2 : allergens_) {
if (kv2.second.size() != 1) {
kv2.second.erase(ing);
}
}
}
}
}
std::string result;
for (auto const &kv : allergens_) {
result += ",";
result += *kv.second.begin();
}
return result.substr(1);
}
private:
IngredientMap ingredients_;
AllergenMap allergens_;
};
int main(void) {
std::string line;
IngredientParser parser;
while (std::getline(std::cin, line)) {
parser.add_recipe(line);
}
auto clean = parser.clean_ingredients();
std::cout << "Number of clean ingredients: " << clean << "\n";
auto dangerous = parser.dangerous_ingredients();
std::cout << "Dangerous ingredients: " << dangerous << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <tuple>
#include <vector>
using Card = unsigned;
using Cards = std::list<Card>;
using Score = unsigned long;
struct Player {
Player(std::istream &is) {
std::string line;
if (!std::getline(is, name_)) {
assert(false);
}
while (std::getline(is, line)) {
if (line == "") {
break;
}
cards_.push_back(std::stoul(line));
}
}
bool empty() const { return cards_.empty(); }
Card front() const { return cards_.front(); }
void pop_front() { cards_.pop_front(); }
void push_back(Card c) { cards_.push_back(c); }
Score score() const {
Score r = 0;
unsigned idx = 1;
for (auto it = cards_.rbegin(); it != cards_.rend(); ++it) {
r += idx * *it;
++idx;
}
return r;
}
private:
std::string name_;
Cards cards_;
};
Score play_game(Player &p1, Player &p2) {
while (!p1.empty() && !p2.empty()) {
Card c1 = p1.front();
Card c2 = p2.front();
p1.pop_front();
p2.pop_front();
if (c1 > c2) {
p1.push_back(c1);
p1.push_back(c2);
} else if (c1 < c2) {
p2.push_back(c2);
p2.push_back(c1);
}
}
return p1.score() + p2.score();
}
int main(void) {
Player player1(std::cin);
Player player2(std::cin);
Score final_score = play_game(player1, player2);
std::cout << "Final score: " << final_score << "\n";
return 0;
}

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#include <algorithm>
#include <array>
#include <cassert>
#include <iostream>
#include <list>
#include <map>
#include <regex>
#include <set>
#include <string>
#include <tuple>
#include <vector>
using Card = unsigned;
using Cards = std::list<Card>;
using Score = unsigned long;
using Hash = std::string;
struct Player {
Player(std::istream &is) {
std::string line;
if (!std::getline(is, name_)) {
assert(false);
}
while (std::getline(is, line)) {
if (line == "") {
break;
}
cards_.push_back(std::stoul(line));
}
}
bool empty() const { return cards_.empty(); }
Card front() const { return cards_.front(); }
void pop_front() { cards_.pop_front(); }
void push_back(Card c) { cards_.push_back(c); }
std::size_t size() const { return cards_.size(); }
Score score() const {
Score r = 0;
unsigned idx = 1;
for (auto it = cards_.rbegin(); it != cards_.rend(); ++it) {
r += idx * *it;
++idx;
}
return r;
}
Hash hash() const {
std::string r = name_;
for (auto c : cards_) {
assert(c > 0);
assert(c < 128);
r += (char)c;
}
return r;
}
Player(Player const &prev, Card size) : name_(prev.name_ + "-") {
auto it = prev.cards_.begin();
for (Card i = 0; i < size; ++i) {
cards_.push_back(*it++);
}
}
friend std::ostream &operator<<(std::ostream &os, Player const &p);
private:
std::string name_;
Cards cards_;
};
std::ostream &operator<<(std::ostream &os, Player const &p) {
os << p.name_;
for (auto c : p.cards_) {
os << " " << c;
}
return os;
}
// False = p1 wins, true = p2 wins.
bool play_game(Player &p1, Player &p2) {
std::set<Hash> hashes;
while (!p1.empty() && !p2.empty()) {
// Ensure we've not seen this configuration before.
auto [it, success] = hashes.insert(p1.hash() + p2.hash());
if (!success) {
return false;
}
Card c1 = p1.front();
Card c2 = p2.front();
p1.pop_front();
p2.pop_front();
if (p1.size() >= c1 && p2.size() >= c2) {
Player sp1(p1, c1);
Player sp2(p2, c2);
bool result = play_game(sp1, sp2);
if (!result) {
p1.push_back(c1);
p1.push_back(c2);
} else {
p2.push_back(c2);
p2.push_back(c1);
}
} else if (c1 > c2) {
p1.push_back(c1);
p1.push_back(c2);
} else if (c1 < c2) {
p2.push_back(c2);
p2.push_back(c1);
} else {
assert(false);
}
}
return p1.empty();
}
int main(void) {
Player player1(std::cin);
Player player2(std::cin);
play_game(player1, player2);
Score final_score = player1.score() + player2.score();
std::cout << "Final score: " << final_score << "\n";
return 0;
}

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