698 lines
21 KiB
TeX
698 lines
21 KiB
TeX
\section{\module{dis} ---
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Disassembler for Python byte code}
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\declaremodule{standard}{dis}
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\modulesynopsis{Disassembler for Python byte code.}
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The \module{dis} module supports the analysis of Python byte code by
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disassembling it. Since there is no Python assembler, this module
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defines the Python assembly language. The Python byte code which
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this module takes as an input is defined in the file
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\file{Include/opcode.h} and used by the compiler and the interpreter.
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Example: Given the function \function{myfunc}:
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\begin{verbatim}
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def myfunc(alist):
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return len(alist)
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\end{verbatim}
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the following command can be used to get the disassembly of
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\function{myfunc()}:
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\begin{verbatim}
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>>> dis.dis(myfunc)
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2 0 LOAD_GLOBAL 0 (len)
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3 LOAD_FAST 0 (alist)
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6 CALL_FUNCTION 1
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9 RETURN_VALUE
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10 RETURN_NONE
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\end{verbatim}
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(The ``2'' is a line number).
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The \module{dis} module defines the following functions and constants:
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\begin{funcdesc}{dis}{\optional{bytesource}}
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Disassemble the \var{bytesource} object. \var{bytesource} can denote
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either a module, a class, a method, a function, or a code object.
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For a module, it disassembles all functions. For a class,
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it disassembles all methods. For a single code sequence, it prints
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one line per byte code instruction. If no object is provided, it
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disassembles the last traceback.
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\end{funcdesc}
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\begin{funcdesc}{distb}{\optional{tb}}
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Disassembles the top-of-stack function of a traceback, using the last
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traceback if none was passed. The instruction causing the exception
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is indicated.
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\end{funcdesc}
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\begin{funcdesc}{disassemble}{code\optional{, lasti}}
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Disassembles a code object, indicating the last instruction if \var{lasti}
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was provided. The output is divided in the following columns:
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\begin{enumerate}
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\item the line number, for the first instruction of each line
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\item the current instruction, indicated as \samp{-->},
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\item a labelled instruction, indicated with \samp{>\code{>}},
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\item the address of the instruction,
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\item the operation code name,
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\item operation parameters, and
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\item interpretation of the parameters in parentheses.
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\end{enumerate}
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The parameter interpretation recognizes local and global
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variable names, constant values, branch targets, and compare
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operators.
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\end{funcdesc}
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\begin{funcdesc}{disco}{code\optional{, lasti}}
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A synonym for disassemble. It is more convenient to type, and kept
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for compatibility with earlier Python releases.
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\end{funcdesc}
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\begin{datadesc}{opname}
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Sequence of operation names, indexable using the byte code.
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\end{datadesc}
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\begin{datadesc}{cmp_op}
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Sequence of all compare operation names.
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\end{datadesc}
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\begin{datadesc}{hasconst}
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Sequence of byte codes that have a constant parameter.
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\end{datadesc}
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\begin{datadesc}{hasfree}
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Sequence of byte codes that access a free variable.
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\end{datadesc}
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\begin{datadesc}{hasname}
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Sequence of byte codes that access an attribute by name.
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\end{datadesc}
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\begin{datadesc}{hasjrel}
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Sequence of byte codes that have a relative jump target.
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\end{datadesc}
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\begin{datadesc}{hasjabs}
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Sequence of byte codes that have an absolute jump target.
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\end{datadesc}
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\begin{datadesc}{haslocal}
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Sequence of byte codes that access a local variable.
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\end{datadesc}
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\begin{datadesc}{hascompare}
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Sequence of byte codes of Boolean operations.
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\end{datadesc}
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\subsection{Python Byte Code Instructions}
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\label{bytecodes}
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The Python compiler currently generates the following byte code
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instructions.
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\setindexsubitem{(byte code insns)}
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\begin{opcodedesc}{STOP_CODE}{}
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Indicates end-of-code to the compiler, not used by the interpreter.
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\end{opcodedesc}
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\begin{opcodedesc}{POP_TOP}{}
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Removes the top-of-stack (TOS) item.
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\end{opcodedesc}
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\begin{opcodedesc}{ROT_TWO}{}
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Swaps the two top-most stack items.
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\end{opcodedesc}
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\begin{opcodedesc}{ROT_THREE}{}
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Lifts second and third stack item one position up, moves top down
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to position three.
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\end{opcodedesc}
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\begin{opcodedesc}{ROT_FOUR}{}
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Lifts second, third and forth stack item one position up, moves top down to
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position four.
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\end{opcodedesc}
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\begin{opcodedesc}{DUP_TOP}{}
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Duplicates the reference on top of the stack.
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\end{opcodedesc}
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Unary Operations take the top of the stack, apply the operation, and
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push the result back on the stack.
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\begin{opcodedesc}{UNARY_POSITIVE}{}
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Implements \code{TOS = +TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{UNARY_NEGATIVE}{}
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Implements \code{TOS = -TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{UNARY_NOT}{}
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Implements \code{TOS = not TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{UNARY_CONVERT}{}
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Implements \code{TOS = `TOS`}.
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\end{opcodedesc}
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\begin{opcodedesc}{UNARY_INVERT}{}
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Implements \code{TOS = \~{}TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{GET_ITER}{}
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Implements \code{TOS = iter(TOS)}.
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\end{opcodedesc}
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Binary operations remove the top of the stack (TOS) and the second top-most
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stack item (TOS1) from the stack. They perform the operation, and put the
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result back on the stack.
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\begin{opcodedesc}{BINARY_POWER}{}
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Implements \code{TOS = TOS1 ** TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{BINARY_MULTIPLY}{}
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Implements \code{TOS = TOS1 * TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{BINARY_DIVIDE}{}
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Implements \code{TOS = TOS1 / TOS} when
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\code{from __future__ import division} is not in effect.
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\end{opcodedesc}
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\begin{opcodedesc}{BINARY_FLOOR_DIVIDE}{}
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Implements \code{TOS = TOS1 // TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{BINARY_TRUE_DIVIDE}{}
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Implements \code{TOS = TOS1 / TOS} when
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\code{from __future__ import division} is in effect.
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\end{opcodedesc}
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\begin{opcodedesc}{BINARY_MODULO}{}
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Implements \code{TOS = TOS1 \%{} TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{BINARY_ADD}{}
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Implements \code{TOS = TOS1 + TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{BINARY_SUBTRACT}{}
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Implements \code{TOS = TOS1 - TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{BINARY_SUBSCR}{}
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Implements \code{TOS = TOS1[TOS]}.
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\end{opcodedesc}
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\begin{opcodedesc}{BINARY_LSHIFT}{}
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Implements \code{TOS = TOS1 <\code{}< TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{BINARY_RSHIFT}{}
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Implements \code{TOS = TOS1 >\code{}> TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{BINARY_AND}{}
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Implements \code{TOS = TOS1 \&\ TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{BINARY_XOR}{}
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Implements \code{TOS = TOS1 \^\ TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{BINARY_OR}{}
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Implements \code{TOS = TOS1 | TOS}.
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\end{opcodedesc}
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In-place operations are like binary operations, in that they remove TOS and
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TOS1, and push the result back on the stack, but the operation is done
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in-place when TOS1 supports it, and the resulting TOS may be (but does not
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have to be) the original TOS1.
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\begin{opcodedesc}{INPLACE_POWER}{}
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Implements in-place \code{TOS = TOS1 ** TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{INPLACE_MULTIPLY}{}
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Implements in-place \code{TOS = TOS1 * TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{INPLACE_DIVIDE}{}
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Implements in-place \code{TOS = TOS1 / TOS} when
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\code{from __future__ import division} is not in effect.
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\end{opcodedesc}
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\begin{opcodedesc}{INPLACE_FLOOR_DIVIDE}{}
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Implements in-place \code{TOS = TOS1 // TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{INPLACE_TRUE_DIVIDE}{}
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Implements in-place \code{TOS = TOS1 / TOS} when
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\code{from __future__ import division} is in effect.
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\end{opcodedesc}
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\begin{opcodedesc}{INPLACE_MODULO}{}
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Implements in-place \code{TOS = TOS1 \%{} TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{INPLACE_ADD}{}
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Implements in-place \code{TOS = TOS1 + TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{INPLACE_SUBTRACT}{}
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Implements in-place \code{TOS = TOS1 - TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{INPLACE_LSHIFT}{}
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Implements in-place \code{TOS = TOS1 <\code{}< TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{INPLACE_RSHIFT}{}
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Implements in-place \code{TOS = TOS1 >\code{}> TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{INPLACE_AND}{}
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Implements in-place \code{TOS = TOS1 \&\ TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{INPLACE_XOR}{}
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Implements in-place \code{TOS = TOS1 \^\ TOS}.
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\end{opcodedesc}
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\begin{opcodedesc}{INPLACE_OR}{}
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Implements in-place \code{TOS = TOS1 | TOS}.
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\end{opcodedesc}
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The slice opcodes take up to three parameters.
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\begin{opcodedesc}{SLICE+0}{}
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Implements \code{TOS = TOS[:]}.
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\end{opcodedesc}
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\begin{opcodedesc}{SLICE+1}{}
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Implements \code{TOS = TOS1[TOS:]}.
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\end{opcodedesc}
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\begin{opcodedesc}{SLICE+2}{}
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Implements \code{TOS = TOS1[:TOS]}.
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\end{opcodedesc}
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\begin{opcodedesc}{SLICE+3}{}
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Implements \code{TOS = TOS2[TOS1:TOS]}.
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\end{opcodedesc}
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Slice assignment needs even an additional parameter. As any statement,
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they put nothing on the stack.
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\begin{opcodedesc}{STORE_SLICE+0}{}
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Implements \code{TOS[:] = TOS1}.
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\end{opcodedesc}
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\begin{opcodedesc}{STORE_SLICE+1}{}
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Implements \code{TOS1[TOS:] = TOS2}.
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\end{opcodedesc}
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\begin{opcodedesc}{STORE_SLICE+2}{}
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Implements \code{TOS1[:TOS] = TOS2}.
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\end{opcodedesc}
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\begin{opcodedesc}{STORE_SLICE+3}{}
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Implements \code{TOS2[TOS1:TOS] = TOS3}.
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\end{opcodedesc}
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\begin{opcodedesc}{DELETE_SLICE+0}{}
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Implements \code{del TOS[:]}.
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\end{opcodedesc}
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\begin{opcodedesc}{DELETE_SLICE+1}{}
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Implements \code{del TOS1[TOS:]}.
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\end{opcodedesc}
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\begin{opcodedesc}{DELETE_SLICE+2}{}
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Implements \code{del TOS1[:TOS]}.
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\end{opcodedesc}
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\begin{opcodedesc}{DELETE_SLICE+3}{}
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Implements \code{del TOS2[TOS1:TOS]}.
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\end{opcodedesc}
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\begin{opcodedesc}{STORE_SUBSCR}{}
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Implements \code{TOS1[TOS] = TOS2}.
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\end{opcodedesc}
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\begin{opcodedesc}{DELETE_SUBSCR}{}
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Implements \code{del TOS1[TOS]}.
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\end{opcodedesc}
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Miscellaneous opcodes.
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\begin{opcodedesc}{PRINT_EXPR}{}
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Implements the expression statement for the interactive mode. TOS is
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removed from the stack and printed. In non-interactive mode, an
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expression statement is terminated with \code{POP_STACK}.
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\end{opcodedesc}
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\begin{opcodedesc}{PRINT_ITEM}{}
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Prints TOS to the file-like object bound to \code{sys.stdout}. There
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is one such instruction for each item in the \keyword{print} statement.
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\end{opcodedesc}
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\begin{opcodedesc}{PRINT_ITEM_TO}{}
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Like \code{PRINT_ITEM}, but prints the item second from TOS to the
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file-like object at TOS. This is used by the extended print statement.
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\end{opcodedesc}
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\begin{opcodedesc}{PRINT_NEWLINE}{}
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Prints a new line on \code{sys.stdout}. This is generated as the
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last operation of a \keyword{print} statement, unless the statement
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ends with a comma.
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\end{opcodedesc}
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\begin{opcodedesc}{PRINT_NEWLINE_TO}{}
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Like \code{PRINT_NEWLINE}, but prints the new line on the file-like
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object on the TOS. This is used by the extended print statement.
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\end{opcodedesc}
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\begin{opcodedesc}{BREAK_LOOP}{}
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Terminates a loop due to a \keyword{break} statement.
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\end{opcodedesc}
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\begin{opcodedesc}{CONTINUE_LOOP}{target}
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Continues a loop due to a \keyword{continue} statement. \var{target}
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is the address to jump to (which should be a \code{FOR_ITER}
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instruction).
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\end{opcodedesc}
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\begin{opcodedesc}{LOAD_LOCALS}{}
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Pushes a reference to the locals of the current scope on the stack.
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This is used in the code for a class definition: After the class body
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is evaluated, the locals are passed to the class definition.
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\end{opcodedesc}
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\begin{opcodedesc}{RETURN_VALUE}{}
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Returns with TOS to the caller of the function.
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\end{opcodedesc}
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\begin{opcodedesc}{RETURN_NONE}{}
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Returns \constant{None} to the caller of the function. This opcode is
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generated as the last opcode of every function and only then, for
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reasons to do with tracing support. See the comments in the function
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\cfunction{maybe_call_line_trace} in \file{Python/ceval.c} for the
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gory details. \versionadded{2.3}.
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\end{opcodedesc}
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\begin{opcodedesc}{YIELD_VALUE}{}
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Pops \code{TOS} and yields it from a generator.
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\end{opcodedesc}
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\begin{opcodedesc}{IMPORT_STAR}{}
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Loads all symbols not starting with \character{_} directly from the module TOS
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to the local namespace. The module is popped after loading all names.
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This opcode implements \code{from module import *}.
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\end{opcodedesc}
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\begin{opcodedesc}{EXEC_STMT}{}
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Implements \code{exec TOS2,TOS1,TOS}. The compiler fills
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missing optional parameters with \code{None}.
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\end{opcodedesc}
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\begin{opcodedesc}{POP_BLOCK}{}
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Removes one block from the block stack. Per frame, there is a
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stack of blocks, denoting nested loops, try statements, and such.
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\end{opcodedesc}
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\begin{opcodedesc}{END_FINALLY}{}
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Terminates a \keyword{finally} clause. The interpreter recalls
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whether the exception has to be re-raised, or whether the function
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returns, and continues with the outer-next block.
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\end{opcodedesc}
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\begin{opcodedesc}{BUILD_CLASS}{}
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Creates a new class object. TOS is the methods dictionary, TOS1
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the tuple of the names of the base classes, and TOS2 the class name.
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\end{opcodedesc}
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All of the following opcodes expect arguments. An argument is two
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bytes, with the more significant byte last.
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\begin{opcodedesc}{STORE_NAME}{namei}
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Implements \code{name = TOS}. \var{namei} is the index of \var{name}
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in the attribute \member{co_names} of the code object.
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The compiler tries to use \code{STORE_LOCAL} or \code{STORE_GLOBAL}
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if possible.
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\end{opcodedesc}
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\begin{opcodedesc}{DELETE_NAME}{namei}
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Implements \code{del name}, where \var{namei} is the index into
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\member{co_names} attribute of the code object.
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\end{opcodedesc}
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\begin{opcodedesc}{UNPACK_SEQUENCE}{count}
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Unpacks TOS into \var{count} individual values, which are put onto
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the stack right-to-left.
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\end{opcodedesc}
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%\begin{opcodedesc}{UNPACK_LIST}{count}
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%This opcode is obsolete.
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%\end{opcodedesc}
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%\begin{opcodedesc}{UNPACK_ARG}{count}
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%This opcode is obsolete.
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%\end{opcodedesc}
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\begin{opcodedesc}{DUP_TOPX}{count}
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Duplicate \var{count} items, keeping them in the same order. Due to
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implementation limits, \var{count} should be between 1 and 5 inclusive.
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\end{opcodedesc}
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\begin{opcodedesc}{STORE_ATTR}{namei}
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Implements \code{TOS.name = TOS1}, where \var{namei} is the index
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of name in \member{co_names}.
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\end{opcodedesc}
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\begin{opcodedesc}{DELETE_ATTR}{namei}
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Implements \code{del TOS.name}, using \var{namei} as index into
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\member{co_names}.
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\end{opcodedesc}
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\begin{opcodedesc}{STORE_GLOBAL}{namei}
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Works as \code{STORE_NAME}, but stores the name as a global.
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\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{DELETE_GLOBAL}{namei}
|
|
Works as \code{DELETE_NAME}, but deletes a global name.
|
|
\end{opcodedesc}
|
|
|
|
%\begin{opcodedesc}{UNPACK_VARARG}{argc}
|
|
%This opcode is obsolete.
|
|
%\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{LOAD_CONST}{consti}
|
|
Pushes \samp{co_consts[\var{consti}]} onto the stack.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{LOAD_NAME}{namei}
|
|
Pushes the value associated with \samp{co_names[\var{namei}]} onto the stack.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{BUILD_TUPLE}{count}
|
|
Creates a tuple consuming \var{count} items from the stack, and pushes
|
|
the resulting tuple onto the stack.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{BUILD_LIST}{count}
|
|
Works as \code{BUILD_TUPLE}, but creates a list.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{BUILD_MAP}{zero}
|
|
Pushes a new empty dictionary object onto the stack. The argument is
|
|
ignored and set to zero by the compiler.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{LOAD_ATTR}{namei}
|
|
Replaces TOS with \code{getattr(TOS, co_names[\var{namei}]}.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{COMPARE_OP}{opname}
|
|
Performs a Boolean operation. The operation name can be found
|
|
in \code{cmp_op[\var{opname}]}.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{IMPORT_NAME}{namei}
|
|
Imports the module \code{co_names[\var{namei}]}. The module object is
|
|
pushed onto the stack. The current namespace is not affected: for a
|
|
proper import statement, a subsequent \code{STORE_FAST} instruction
|
|
modifies the namespace.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{IMPORT_FROM}{namei}
|
|
Loads the attribute \code{co_names[\var{namei}]} from the module found in
|
|
TOS. The resulting object is pushed onto the stack, to be subsequently
|
|
stored by a \code{STORE_FAST} instruction.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{JUMP_FORWARD}{delta}
|
|
Increments byte code counter by \var{delta}.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{JUMP_IF_TRUE}{delta}
|
|
If TOS is true, increment the byte code counter by \var{delta}. TOS is
|
|
left on the stack.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{JUMP_IF_FALSE}{delta}
|
|
If TOS is false, increment the byte code counter by \var{delta}. TOS
|
|
is not changed.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{JUMP_ABSOLUTE}{target}
|
|
Set byte code counter to \var{target}.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{FOR_ITER}{delta}
|
|
\code{TOS} is an iterator. Call its \method{next()} method. If this
|
|
yields a new value, push it on the stack (leaving the iterator below
|
|
it). If the iterator indicates it is exhausted \code{TOS} is
|
|
popped, and the byte code counter is incremented by \var{delta}.
|
|
\end{opcodedesc}
|
|
|
|
%\begin{opcodedesc}{FOR_LOOP}{delta}
|
|
%This opcode is obsolete.
|
|
%\end{opcodedesc}
|
|
|
|
%\begin{opcodedesc}{LOAD_LOCAL}{namei}
|
|
%This opcode is obsolete.
|
|
%\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{LOAD_GLOBAL}{namei}
|
|
Loads the global named \code{co_names[\var{namei}]} onto the stack.
|
|
\end{opcodedesc}
|
|
|
|
%\begin{opcodedesc}{SET_FUNC_ARGS}{argc}
|
|
%This opcode is obsolete.
|
|
%\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{SETUP_LOOP}{delta}
|
|
Pushes a block for a loop onto the block stack. The block spans
|
|
from the current instruction with a size of \var{delta} bytes.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{SETUP_EXCEPT}{delta}
|
|
Pushes a try block from a try-except clause onto the block stack.
|
|
\var{delta} points to the first except block.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{SETUP_FINALLY}{delta}
|
|
Pushes a try block from a try-except clause onto the block stack.
|
|
\var{delta} points to the finally block.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{LOAD_FAST}{var_num}
|
|
Pushes a reference to the local \code{co_varnames[\var{var_num}]} onto
|
|
the stack.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{STORE_FAST}{var_num}
|
|
Stores TOS into the local \code{co_varnames[\var{var_num}]}.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{DELETE_FAST}{var_num}
|
|
Deletes local \code{co_varnames[\var{var_num}]}.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{LOAD_CLOSURE}{i}
|
|
Pushes a reference to the cell contained in slot \var{i} of the
|
|
cell and free variable storage. The name of the variable is
|
|
\code{co_cellvars[\var{i}]} if \var{i} is less than the length of
|
|
\var{co_cellvars}. Otherwise it is
|
|
\code{co_freevars[\var{i} - len(co_cellvars)]}.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{LOAD_DEREF}{i}
|
|
Loads the cell contained in slot \var{i} of the cell and free variable
|
|
storage. Pushes a reference to the object the cell contains on the
|
|
stack.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{STORE_DEREF}{i}
|
|
Stores TOS into the cell contained in slot \var{i} of the cell and
|
|
free variable storage.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{SET_LINENO}{lineno}
|
|
This opcode is obsolete.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{RAISE_VARARGS}{argc}
|
|
Raises an exception. \var{argc} indicates the number of parameters
|
|
to the raise statement, ranging from 0 to 3. The handler will find
|
|
the traceback as TOS2, the parameter as TOS1, and the exception
|
|
as TOS.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{CALL_FUNCTION}{argc}
|
|
Calls a function. The low byte of \var{argc} indicates the number of
|
|
positional parameters, the high byte the number of keyword parameters.
|
|
On the stack, the opcode finds the keyword parameters first. For each
|
|
keyword argument, the value is on top of the key. Below the keyword
|
|
parameters, the positional parameters are on the stack, with the
|
|
right-most parameter on top. Below the parameters, the function object
|
|
to call is on the stack.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{MAKE_FUNCTION}{argc}
|
|
Pushes a new function object on the stack. TOS is the code associated
|
|
with the function. The function object is defined to have \var{argc}
|
|
default parameters, which are found below TOS.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{MAKE_CLOSURE}{argc}
|
|
Creates a new function object, sets its \var{func_closure} slot, and
|
|
pushes it on the stack. TOS is the code associated with the function.
|
|
If the code object has N free variables, the next N items on the stack
|
|
are the cells for these variables. The function also has \var{argc}
|
|
default parameters, where are found before the cells.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{BUILD_SLICE}{argc}
|
|
Pushes a slice object on the stack. \var{argc} must be 2 or 3. If it
|
|
is 2, \code{slice(TOS1, TOS)} is pushed; if it is 3,
|
|
\code{slice(TOS2, TOS1, TOS)} is pushed.
|
|
See the \code{slice()}\bifuncindex{slice} built-in function for more
|
|
information.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{EXTENDED_ARG}{ext}
|
|
Prefixes any opcode which has an argument too big to fit into the
|
|
default two bytes. \var{ext} holds two additional bytes which, taken
|
|
together with the subsequent opcode's argument, comprise a four-byte
|
|
argument, \var{ext} being the two most-significant bytes.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{CALL_FUNCTION_VAR}{argc}
|
|
Calls a function. \var{argc} is interpreted as in \code{CALL_FUNCTION}.
|
|
The top element on the stack contains the variable argument list, followed
|
|
by keyword and positional arguments.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{CALL_FUNCTION_KW}{argc}
|
|
Calls a function. \var{argc} is interpreted as in \code{CALL_FUNCTION}.
|
|
The top element on the stack contains the keyword arguments dictionary,
|
|
followed by explicit keyword and positional arguments.
|
|
\end{opcodedesc}
|
|
|
|
\begin{opcodedesc}{CALL_FUNCTION_VAR_KW}{argc}
|
|
Calls a function. \var{argc} is interpreted as in
|
|
\code{CALL_FUNCTION}. The top element on the stack contains the
|
|
keyword arguments dictionary, followed by the variable-arguments
|
|
tuple, followed by explicit keyword and positional arguments.
|
|
\end{opcodedesc}
|