I'm not proud of this, but it works. lol. (day 8).

2022/8/main.cpp

@@ -29,132 +29,112 @@ int main()
 			trees.back().push_back(ch - '0');
 	}
 
-	total += 2 * trees.size();
-	total += 2 * (trees[0].size() - 2);
-
 	std::set<std::pair<int, int>> visible_coordinates;
-
-	// NOTE(dev):
-#warning This shit is wrong because it's only finding the FIRST visible tree, not all visible trees.
-#warning e.g. If you have 2003005003007004005
-#warning                  ^  ^  ^     ^  are all visible from the left
-#warning                                    ^ is visible from the right
-
-	// left to right, right to left IN EACH ROW:
-	for(auto y = 1; y < trees.size() - 1; ++y)
+	for(auto y = 0; y < trees.size(); ++y)
 	{
-		auto x = 1;
-		bool found_from_left = false;
-		while(x < trees[y].size() - 1)
-		{
-			std::cout << trees[y][x];
-			if(trees[y][x] < trees[y][x-1])
-				break;
-			found_from_left = true;
-			++x;
-		}
-		if(found_from_left)
-		{
-			// make sure it isn't the right-most, as that's already counted
-			if(x == trees[y].size() - 1)
-			{
-				if(trees[y][x] < trees[y][x-1])
-				{
-					std::cout << ": insert {" << (x - 1) << "," << y << "}"
-					          << "(" << trees[y][x-1] << ")";
-					visible_coordinates.insert({x - 1, y});
-				}
-			}
-			else
-			{
-				std::cout << ": insert {" << (x - 1) << "," << y << "}"
-				          << "(" << trees[y][x-1] << ")";
-				visible_coordinates.insert({x - 1, y});
-
-				// NOTE(dev): Only search from the right if there's still room to search:
-				bool found_from_right = false;
-				auto found_x = x - 1;
-				x = trees[y].size() - 2;
-				while(x > found_x)
-				{
-					if(trees[y][x] < trees[y][x + 1])
-						break;
-					found_from_right = true;
-					--x;
-				}
-				if(found_from_right)
-				{
-					std::cout << ": insert {" << (x + 1) << "," << y << "}"
-					          << "(" << trees[y][x+1] << ")";
-					visible_coordinates.insert({x + 1, y});
-				}
-			}
-		}
-		std::cout << std::endl;
+		visible_coordinates.insert({0,y});
+		visible_coordinates.insert({trees[y].size()-1,y});
 	}
-
-	// top to bottom, bottom to top IN EACH COLUMN:
 	for(auto x = 1; x < trees[0].size() - 1; ++x)
 	{
-		auto y = 1;
-		bool found_from_top = false;
-		while(y < trees.size() - 1)
-		{
-			if(trees[y][x] < trees[y-1][x])
-				break;
-			found_from_top = true;
-			++x;
-		}
-		if(found_from_top)
-		{
-			// make sure it isn't the bottom-most, as that's already counted
-			if(y == trees.size() - 1)
-			{
-				if(trees[y][x] < trees[y-1][x])
-				{
-					std::cout << ": insert {" << x << "," << (y - 1) << "}"
-					          << "(" << trees[y-1][x] << ")";
-					visible_coordinates.insert({x, y - 1});
-				}
-			}
-			else
-			{
-					std::cout << ": insert {" << x << "," << (y - 1) << "}"
-					          << "(" << trees[y-1][x] << ")";
-				visible_coordinates.insert({x, y - 1});
+		visible_coordinates.insert({x,0});
+		visible_coordinates.insert({x,trees.size()-1});
+	}
 
-				// NOTE(dev): Only search from the bottom if there's still room to search:
-				bool found_from_bottom = false;
-				auto found_y = y - 1;
-				y = trees.size() - 2;
-				while(y > found_y)
-				{
-					if(trees[y][x] < trees[y + 1][x])
-						break;
-					found_from_bottom = true;
-					--y;
-				}
-				if(found_from_bottom)
-				{
-					std::cout << ": insert {" << x << "," << (y + 1) << "}"
-					          << "(" << trees[y+1][x] << ")";
-					visible_coordinates.insert({x, y + 1});
-				}
+	// left to right, right to left IN EACH ROW:
+	std::vector<int> points;
+	for(auto y = 1; y < trees.size() - 1; ++y)
+	{
+		points.clear();
+
+		// initialize list with the first value
+		points.push_back(trees[y][0]);
+
+		// iterate through the rest:
+		for(auto x = 1; x < trees[y].size(); ++x)
+		{
+			// if it's higher than the most recent one:
+			const auto val = trees[y][x];
+			if(val > points.back())
+			{
+				points.push_back(val);
+				visible_coordinates.insert({x,y});
+			}
+		}
+	}
+	for(auto y = 1; y < trees.size() - 1; ++y)
+	{
+		points.clear();
+
+		// initialize list with the first value
+		points.push_back(trees[y][trees.size()-1]);
+
+		// iterate through the rest:
+		for(auto x = trees[y].size() - 2; x > 0; --x)
+		{
+			// if it's higher than the most recent one:
+			const auto val = trees[y][x];
+			if(val > points.back())
+			{
+				points.push_back(val);
+				visible_coordinates.insert({x,y});
+			}
+		}
+	}
+	for(auto x = 1; x < trees[0].size() - 1; ++x)
+	{
+		points.clear();
+
+		// initialize list with the first value
+		points.push_back(trees[0][x]);
+
+		// iterate through the rest:
+		for(auto y = 1; y < trees.size(); ++y)
+		{
+			// if it's higher than the most recent one:
+			const auto val = trees[y][x];
+			if(val > points.back())
+			{
+				points.push_back(val);
+				visible_coordinates.insert({x,y});
+			}
+		}
+	}
+	for(auto x = 1; x < trees[0].size() - 1; ++x)
+	{
+		points.clear();
+
+		// initialize list with the first value
+		points.push_back(trees[trees.size()-1][x]);
+
+		// iterate through the rest:
+		for(auto y = trees.size()-2; y > 0; --y)
+		{
+			// if it's higher than the most recent one:
+			const auto val = trees[y][x];
+			if(val > points.back())
+			{
+				points.push_back(val);
+				visible_coordinates.insert({x,y});
 			}
 		}
 	}
 
 	total += visible_coordinates.size();
 
-	// // track interior
-	// for(auto y = 1; y < trees.size() - 1; ++y)
-	// {
-	// 	// left & right, first
-	// 	for(auto x = 1; x < trees[y].size() - 1; ++x)
-	// 	{
-
-	// 	}
-	// }
+	for(auto y = 0; y < trees.size(); ++y)
+	{
+		for(auto x = 0; x < trees[y].size(); ++x)
+		{
+			if(visible_coordinates.contains({x,y}))
+				std::cout << "\033[1;31m";
+			else
+				std::cout << "\033[0m";
+			std::cout << trees[y][x];
+		}
+		std::cout << std::endl;
+	}
+	std::cout << "\033[0m";
 
 	std::cout << "    Total: " <<     total << std::endl;
 	std::cout << "PT2 Total: " << total_pt2 << std::endl;