refactored to make part 2 easier

main
Inga 🏳‍🌈 1 year ago
parent 067bb3651b
commit 6bd623f88e
  1. 62
      day03-easy/src/main.zig

@ -1,20 +1,27 @@
const std = @import("std"); const std = @import("std");
fn isSymbol(char: u8) bool { const Char = enum(u4) {
return switch (char) { Zero = 0,
'0'...'9' => false, One = 1,
'.' => false, Two = 2,
else => true, Three = 3,
Four = 4,
Five = 5,
Six = 6,
Seven = 7,
Eight = 8,
Nine = 9,
Dot = 12,
Symbol = 13,
}; };
}
const CharInfo = struct { const CharInfo = struct {
adjacents: [8]u8, adjacents: [8]Char,
this: u8, this: Char,
fn isAdjacentToSymbol(self: *const CharInfo) bool { fn isAdjacentToSymbol(self: *const CharInfo) bool {
for (0..8) |i| { for (0..8) |i| {
if (isSymbol(self.adjacents[i])) { if (self.adjacents[i] == .Symbol) {
return true; return true;
} }
} }
@ -28,7 +35,7 @@ const State = struct {
is_adjacent_to_symbol: bool = false, is_adjacent_to_symbol: bool = false,
fn addDigit(self: *State, char_info: CharInfo) void { fn addDigit(self: *State, char_info: CharInfo) void {
self.number = self.number * 10 + (char_info.this - '0'); self.number = self.number * 10 + @intFromEnum(char_info.this);
self.is_adjacent_to_symbol = self.is_adjacent_to_symbol or char_info.isAdjacentToSymbol(); self.is_adjacent_to_symbol = self.is_adjacent_to_symbol or char_info.isAdjacentToSymbol();
} }
}; };
@ -42,10 +49,10 @@ fn solve(engine: [][]const CharInfo) u32 {
for (line) |char_info| { for (line) |char_info| {
//std.debug.print("handling: {s}({s})\n", .{ [_]u8{char_info.this}, char_info.adjacents }); //std.debug.print("handling: {s}({s})\n", .{ [_]u8{char_info.this}, char_info.adjacents });
switch (char_info.this) { switch (char_info.this) {
'0'...'9' => { .Zero, .One, .Two, .Three, .Four, .Five, .Six, .Seven, .Eight, .Nine => {
current_state.addDigit(char_info); current_state.addDigit(char_info);
}, },
else => { .Dot, .Symbol => {
if (current_state.is_adjacent_to_symbol) { if (current_state.is_adjacent_to_symbol) {
//std.debug.print("adding: {d}\n", .{current_state.number}); //std.debug.print("adding: {d}\n", .{current_state.number});
result += current_state.number; result += current_state.number;
@ -67,21 +74,21 @@ fn solve(engine: [][]const CharInfo) u32 {
return result; return result;
} }
fn charLinesToCharInfoLines(allocator: std.mem.Allocator, char_lines: [][]const u8) ![][]const CharInfo { fn charLinesToCharInfoLines(allocator: std.mem.Allocator, char_lines: [][]const Char) ![][]const CharInfo {
var char_info_lines = try allocator.alloc([]CharInfo, char_lines.len); var char_info_lines = try allocator.alloc([]CharInfo, char_lines.len);
for (0..char_lines.len) |i| { for (0..char_lines.len) |i| {
const char_line = char_lines[i]; const char_line = char_lines[i];
var char_info_line = try allocator.alloc(CharInfo, char_line.len); var char_info_line = try allocator.alloc(CharInfo, char_line.len);
for (0..char_line.len) |j| { for (0..char_line.len) |j| {
char_info_line[j] = CharInfo{ .this = char_line[j], .adjacents = .{ char_info_line[j] = CharInfo{ .this = char_line[j], .adjacents = .{
if (i > 0 and j > 0) char_lines[i - 1][j - 1] else '.', if (i > 0 and j > 0) char_lines[i - 1][j - 1] else .Dot,
if (i > 0) char_lines[i - 1][j] else '.', if (i > 0) char_lines[i - 1][j] else .Dot,
if (i > 0 and j + 1 < char_line.len) char_lines[i - 1][j + 1] else '.', if (i > 0 and j + 1 < char_line.len) char_lines[i - 1][j + 1] else .Dot,
if (j > 0) char_line[j - 1] else '.', if (j > 0) char_line[j - 1] else .Dot,
if (j + 1 < char_line.len) char_line[j + 1] else '.', if (j + 1 < char_line.len) char_line[j + 1] else .Dot,
if (i + 1 < char_lines.len and j > 0) char_lines[i + 1][j - 1] else '.', if (i + 1 < char_lines.len and j > 0) char_lines[i + 1][j - 1] else .Dot,
if (i + 1 < char_lines.len) char_lines[i + 1][j] else '.', if (i + 1 < char_lines.len) char_lines[i + 1][j] else .Dot,
if (i + 1 < char_lines.len and j + 1 < char_line.len) char_lines[i + 1][j + 1] else '.', if (i + 1 < char_lines.len and j + 1 < char_line.len) char_lines[i + 1][j + 1] else .Dot,
} }; } };
} }
@ -91,11 +98,18 @@ fn charLinesToCharInfoLines(allocator: std.mem.Allocator, char_lines: [][]const
return char_info_lines; return char_info_lines;
} }
fn readInput(allocator: std.mem.Allocator, reader: anytype) ![][]const u8 { fn readInput(allocator: std.mem.Allocator, reader: anytype) ![][]const Char {
var lines = std.ArrayList([]u8).init(allocator); var lines = std.ArrayList([]Char).init(allocator);
var line_buffer: [1000]u8 = undefined; var line_buffer: [1000]u8 = undefined;
while (try reader.readUntilDelimiterOrEof(&line_buffer, '\n')) |line_ref| { while (try reader.readUntilDelimiterOrEof(&line_buffer, '\n')) |line_ref| {
const line = try allocator.dupe(u8, line_ref); var line = try allocator.alloc(Char, line_ref.len);
for (line_ref, line) |raw_char, *char| {
char.* = switch (raw_char) {
'0'...'9' => @enumFromInt(raw_char - '0'),
'.' => .Dot,
else => .Symbol,
};
}
try lines.append(line); try lines.append(line);
} }

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