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#args: .hex file, .pbf file, hex pitch, char width, char height, hz padding, vt padding
#converts the .hex output of gbdfed into a pbf file
#6x9x0x0
bitmaps = {}
File.readlines(ARGV[0]).map do |l|
bitmaps[l[0..3].to_i 16] = (l[5..-2].to_i(16) + 2**(ARGV[2].to_i() * ARGV[4].to_i())).to_s(2)[1..-1]
end
data_area_entries = {}
bitmaps.each do |cp, bm|
lines = bm.scan /.{#{ARGV[2].to_i}}/
this_entry = []
this_byte = 0
byte_mask = 1
for y in 0..(ARGV[4].to_i() - 1) do
for x in 0..(ARGV[3].to_i() - 1) do
if lines[y][x] == '1'
this_byte |= byte_mask
end
byte_mask *= 2
if byte_mask == 256
byte_mask = 1
this_entry << this_byte
this_byte = 0
end
end
end
if byte_mask != 1
this_entry << this_byte
end
data_area_entries[cp] = this_entry
end
data_area = []
def put_u32(f, n)
f.putc (n % 256)
f.putc ((n / 256) % 256)
f.putc ((n / 65536) % 256)
f.putc ((n / 16777216) % 256)
end
File.open(ARGV[1], 'wb') do |f|
f.putc ARGV[3].to_i
f.putc ARGV[4].to_i
f.putc ARGV[5].to_i
f.putc ARGV[6].to_i
for cp in 0..255 do
if data_area_entries.key? cp
put_u32(f, data_area.length)
for b in data_area_entries[cp] do
data_area << b
end
else
put_u32(f, 0)
end
end
for b in data_area do
f.putc b
end
end
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