class Yukidama
	attr_accessor :range
	attr_reader :yuki
	def initialize(range, yuki)
		@range = range
		@yuki = yuki
	end

	def merge!(other)
		original_range = @range
		if @range.nil?
			new_first = other.range.first + @yuki
			new_last = other.range.last + @yuki
			if new_last < 1
				new_first = new_last = 0
			elsif new_first < 1
				new_first = other.range.first.even? ? 1 : 2
			end
			@range = new_first..new_last
		else
			new_first = [@range.first, other.range.first + @yuki].min
			new_last = [@range.last, other.range.last + @yuki].max
			if new_last < 1
				new_first = new_last = 0
			elsif new_first < 1 || new_first < @range.first
				new_first = other.range.first.even? ? 1 : 2
			end
			new_last = Float::INFINITY if @range.last < new_last
			@range = new_first..new_last
		end
		return (original_range && original_range != @range) ||
			(original_range.nil? && @range != (0..0))
	end

	def to_s
		@range.nil? ?
			"___" :
			"#{@range.first}-#{@range.last==Float::INFINITY ? ?X : @range.last}"
	end
end

h, w = gets.split.map(&:to_i)
a, si, sj = gets.split.map(&:to_i)
b, gi, gj = gets.split.map(&:to_i)
if (a+si+sj+b+gi+gj).odd?
	puts 'No'
	exit
end
yuki = h.times.map{ gets.chars.map{|c| c==?*?1:-1 } }
map = Array.new(h){|i| Array.new(w){|j| Yukidama.new(nil, yuki[i][j]) } }
map[si][sj].range = a..a
stack = [[si, sj]]

cnt = 0
while stack.size > 0
	cnt+=1
	i, j = stack.pop
	d = map[i][j]
	[[i-1,j],[i+1,j],[i,j-1],[i,j+1]].each{|i,j|
		next unless 0 <= i && i < h && 0 <= j && j < w
		if map[i][j].merge!(d)
			stack.push [i,j]
		end
	}
	if map[gi][gj].range && map[gi][gj].range.include?(b)
		#puts map.map{|a| a*?, }
		puts 'Yes'
		exit
	end
end

#puts map.map{|a| a*?, }
#puts map.map{|a| a.map{|d| d.yuki>0 ? ?o : ?_ }*"" }
puts 'No'