If you take a look at the PPM format specification
You'll see that the format consists of:
Each PPM image consists of the following:
A "magic number" for identifying the file type. A ppm image's magic
number is the two characters "P6". Whitespace (blanks, TABs, CRs,
LFs). A width, formatted as ASCII characters in decimal. Whitespace. A
height, again in ASCII decimal. Whitespace. The maximum color value
(Maxval), again in ASCII decimal. Must be less than 65536 and more
than zero. A single whitespace character (usually a newline). A raster
of Height rows, in order from top to bottom. Each row consists of
Width pixels, in order from left to right. Each pixel is a triplet of
red, green, and blue samples, in that order. Each sample is
represented in pure binary by either 1 or 2 bytes. If the Maxval is
less than 256, it is 1 byte. Otherwise, it is 2 bytes. The most
significant byte is first.
So, when you read the RGB values with:
in >> r >> g >> b;
Guessing from your code, you expected them to be formatted as ASCII characters seperated by whitespaces but they are actually formatted in binary with 1-2 bytes per color (as custom in image files, to save ALOT of space).
You'll have to read the data in binary...
unsigned char r,g,b;
in.read((char*)&r, sizeof(unsigned char));
in.read((char*)&g, sizeof(unsigned char));
in.read((char*)&b, sizeof(unsigned char));
And now, to write to out:
r = 0;
out.write((char*)&r, sizeof(unsigned char));
out.write((char*)&g, sizeof(unsigned char));
out.write((char*)&b, sizeof(unsigned char));
Notice that I assume here that values are between 0..255 but they actually depend on the size of the value
color you read in the image section. More acurately, instead of reading 1 byte at a time, I should've read
width = log_2(color) bytes. But for simplicity's sake I left this out of my sample. What you'd probably want to do is to read all three colors in to a buffer sized
3*width and then split it to r,g,b fields.