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aoc-2020/source/day14.d

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import std.bitmanip;
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import std.conv;
import dayutil;
immutable int MEM_SIZE = 36;
enum Operation {
WRITE_BITMASK,
WRITE_MEM
}
enum Value {
ZERO,
ONE,
X,
}
struct Instruction {
Operation op;
long address;
Value[] value;
}
Variant run(int part, File input, bool bigboy, string[] args) {
auto parsed = input.byLineCopy.parseInput;
writeln(parsed);
return Variant(parts!long(part,
() => part1(parsed),
() => part2(parsed)));
}
Instruction[] parseInput(Range)(Range range) if (isInputRange!Range && isSomeString!(ElementType!Range)) {
return range.map!((x) {
Instruction instr;
if (x.startsWith("mask = ")) {
instr.op = Operation.WRITE_BITMASK;
instr.value.reserve(x.length - 8);
foreach(c; x[7..$]) {
switch(c) {
case 'X':
instr.value ~= [Value.X];
break;
case '1':
instr.value ~= [Value.ONE];
break;
case '0':
instr.value ~= [Value.ZERO];
break;
default:
assert(false, "Invalid input");
}
}
} else {
instr.op = Operation.WRITE_MEM;
size_t secondBracket = x.countUntil(']');
instr.address = to!long(x[4..secondBracket]);
long tmp = to!long(x[secondBracket + 4..$]);
instr.value = toStupidBinary(tmp);
}
return instr;
}).array;
}
Value[] toStupidBinary(long val) {
Value[] result;
while (val != 0) {
result ~= [(val & 1) == 1 ? Value.ONE : Value.ZERO];
val >>= 1;
}
result.length = MEM_SIZE;
return result.reverse;
}
long fromStupidBinary(Value[] val) {
long result;
foreach(bit; val) {
result <<= 1;
if (bit == Value.ONE) {
result |= 1;
}
}
return result;
}
long part1(Instruction[] instructions) {
Value[] bitmask;
long[long] memory;
foreach(instruction; instructions) {
final switch(instruction.op) {
case Operation.WRITE_BITMASK:
bitmask = instruction.value;
break;
case Operation.WRITE_MEM:
Value[] tmp = instruction.value;
foreach(ref bit, mask; lockstep(tmp.retro, bitmask.retro)) {
final switch(mask) {
case Value.ZERO:
bit = Value.ZERO;
break;
case Value.ONE:
bit = Value.ONE;
break;
case Value.X: break;
}
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}
//writeln(tmp);
memory[instruction.address] = fromStupidBinary(tmp);
break;
}
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}
long sum = 0;
foreach(e; memory.byValue()) {
//writeln(e);
sum += e;
}
return sum;
}
unittest {
string input = q"EOS
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mask = XXXXXXXXXXXXXXXXXXXXXXXXXXXXX1XXXX0X
mem[8] = 11
mem[7] = 101
mem[8] = 0
EOS";
auto parsed = parseInput(input.lineSplitter);
assert(part1(parsed) == 165);
}
long[] addressPermutations(Value[] address) {
import std.math;
long[] addresses;
addresses ~= [0];
addresses.reserve(pow(2, addresses.count(Value.X)));
foreach(idx, bit; address.retro.enumerate) {
if (bit == Value.X) {
auto duplicate = addresses.dup;
foreach(ref address2; duplicate) {
address2 += (cast(long) 1 << idx);
}
addresses ~= duplicate;
} else if (bit == Value.ONE) {
foreach(ref address2; addresses) {
address2 += (cast(long) 1 << idx);
}
}
}
writeln(address);
foreach(address2; addresses) {
writeln("Address: %064b".format(address2));
}
assert(addresses.length == pow(2, address.count(Value.X)));
assert(addresses.uniq.array.length == addresses.length);
return addresses;
}
long part2(Instruction[] instructions) {
Value[] bitmask;
long[long] memory;
foreach(instruction; instructions) {
final switch(instruction.op) {
case Operation.WRITE_BITMASK:
bitmask = instruction.value;
break;
case Operation.WRITE_MEM:
Value[] tmp = toStupidBinary(instruction.address);
foreach(ref bit, mask; lockstep(tmp, bitmask)) {
final switch(mask) {
case Value.ZERO: break;
case Value.ONE:
bit = Value.ONE;
break;
case Value.X:
bit = Value.X;
break;
}
}
//writeln(tmp);
foreach(long address; addressPermutations(tmp)) {
//writeln("Writing to address ", address);
memory[address] = fromStupidBinary(instruction.value);
}
break;
}
}
return memory.byValue().sum;
}
unittest {
string input = q"EOS
mask = 000000000000000000000000000000X1001X
mem[42] = 100
mask = 00000000000000000000000000000000X0XX
mem[26] = 1
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EOS";
auto parsed = parseInput(input.lineSplitter);
writeln(parsed);
assert(part2(parsed) == 208);
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}