The numbers before the bytecodes are offsets into the original binary bytecodes:
Some bytecodes come with additional information (arguments) that influence how each bytecode works, the offset tells you at what position in the bytestream the bytecode was found.
LOAD_CONST bytecode (ASCII
d, hex 64) is followed by two additional bytes encoding a reference to a constant associated with the bytecode, for example. As a result, the
STORE_FAST opcode (ASCII
}, hex 7D) is found at index 3.
dis module documentation lists what each instruction means. For
LOAD_CONST, it says:
co_consts[consti] onto the stack.
which refers to the
co_consts structure that is always present with a code object; the compiler constructs that:
The opcode loads index 1 from that structure (the 01 00 bytes in the bytecode encode a 1), and
dis has looked that up for you; it is the value
The next instruction,
STORE_FAST is described as:
Stores TOS into the local
Here TOS refers to Top Of Stack; note that the
LOAD_CONST just pushed something onto the stack, the
co_varnames is another structure; it references local variable names, the opcode references index 0:
dis looked that up too, and the name you used in your code is
x. Thus, this opcode stored
None onto the stack from index 0, followed by
Returns with TOS to the caller of the function.
so this instruction takes the top of the stack (with the
None constant) and returns from this code block.
None is the default return value for functions without an explicit
You omitted something from the
dis output, the line numbers:
2 0 LOAD_CONST 1 (1)
3 STORE_FAST 0 (x)
6 LOAD_CONST 0 (None)
2 on the first line; that's the line number in the original source that contains the Python code that was used for these instructions. Python code objects have
co_firstlineno attributes that let you map bytecodes back to line numbers in the original source.
dis does this for you when displaying a disassembly.