Selections ---------- .. todo:: expand on text Most Yosys commands make use of the "selection framework" of Yosys. It can be used to apply commands only to part of the design. For example: .. code:: yoscrypt delete # will delete the whole design, but delete foobar # will only delete the module foobar. The :cmd:ref:`select` command can be used to create a selection for subsequent commands. For example: .. code:: yoscrypt select foobar # select the module foobar delete # delete selected objects select -clear # reset selection (select whole design) Many of the examples on this page make use of the :cmd:ref:`show` command to visually demonstrate the effect of selections. For a more detailed look at this command, refer to :ref:`interactive_show`. How to make a selection ~~~~~~~~~~~~~~~~~~~~~~~ Selection by object name ^^^^^^^^^^^^^^^^^^^^^^^^ The easiest way to select objects is by object name. This is usually only done in synthesis scripts that are hand-tailored for a specific design. .. code:: yoscrypt select foobar # select module foobar select foo* # select all modules whose names start with foo select foo*/bar* # select all objects matching bar* from modules matching foo* select */clk # select objects named clk from all modules Module and design context ^^^^^^^^^^^^^^^^^^^^^^^^^ Commands can be executed in *module/* or *design/* context. Until now all commands have been executed in design context. The :cmd:ref:`cd` command can be used to switch to module context. In module context all commands only effect the active module. Objects in the module are selected without the ``/`` prefix. For example: .. code:: yoscrypt cd foo # switch to module foo delete bar # delete object foo/bar cd mycpu # switch to module mycpu dump reg_* # print details on all objects whose names start with reg_ cd .. # switch back to design Note: Most synthesis scripts never switch to module context. But it is a very powerful tool for interactive design investigation. Selecting by object property or type ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Special patterns can be used to select by object property or type. For example: .. code:: yoscrypt select w:reg_* # select all wires whose names start with reg_ select a:foobar # select all objects with the attribute foobar set select a:foobar=42 # select all objects with the attribute foobar set to 42 select A:blabla # select all modules with the attribute blabla set select foo/t:$add # select all $add cells from the module foo A complete list of this pattern expressions can be found in the command reference to the :cmd:ref:`select` command. Combining selections ^^^^^^^^^^^^^^^^^^^^ When more than one selection expression is used in one statement, then they are pushed on a stack. The final elements on the stack are combined into a union: .. code:: yoscrypt select t:$dff r:WIDTH>1 # all cells of type $dff and/or with a parameter WIDTH > 1 Special ``%``-commands can be used to combine the elements on the stack: .. code:: yoscrypt select t:$dff r:WIDTH>1 %i # all cells of type $dff *AND* with a parameter WIDTH > 1 Examples for ``%``-codes (see :doc:`/cmd/select` for full list): - ``%u``: union of top two elements on stack -- pop 2, push 1 - ``%d``: difference of top two elements on stack -- pop 2, push 1 - ``%i``: intersection of top two elements on stack -- pop 2, push 1 - ``%n``: inverse of top element on stack -- pop 1, push 1 Expanding selections ^^^^^^^^^^^^^^^^^^^^ Selections of cells and wires can be expanded along connections using ``%``-codes for selecting input cones (``%ci``), output cones (``%co``), or both (``%x``). .. code:: yoscrypt # select all wires that are inputs to $add cells select t:$add %ci w:* %i Additional constraints such as port names can be specified. .. code:: yoscrypt # select all wires that connect a "Q" output with a "D" input select c:* %co:+[Q] w:* %i c:* %ci:+[D] w:* %i %i # select the multiplexer tree that drives the signal 'state' select state %ci*:+$mux,$pmux[A,B,Y] See :doc:`/cmd/select` for full documentation of these expressions. Incremental selection ^^^^^^^^^^^^^^^^^^^^^ Sometimes a selection can most easily be described by a series of add/delete operations. The commands ``select -add`` and ``select -del`` respectively add or remove objects from the current selection instead of overwriting it. .. code:: yoscrypt select -none # start with an empty selection select -add reg_* # select a bunch of objects select -del reg_42 # but not this one select -add state %ci # and add more stuff Within a select expression the token ``%`` can be used to push the previous selection on the stack. .. code:: yoscrypt select t:$add t:$sub # select all $add and $sub cells select % %ci % %d # select only the input wires to those cells Creating selection variables ^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Selections can be stored under a name with the ``select -set `` command. The stored selections can be used in later select expressions using the syntax ``@``. .. code:: yoscrypt select -set cone_a state_a %ci*:-$dff # set @cone_a to the input cone of state_a select -set cone_b state_b %ci*:-$dff # set @cone_b to the input cone of state_b select @cone_a @cone_b %i # select the objects that are in both cones Remember that select expressions can also be used directly as arguments to most commands. Some commands also except a single select argument to some options. In those cases selection variables must be used to capture more complex selections. .. code:: yoscrypt dump @cone_a @cone_b select -set cone_ab @cone_a @cone_b %i show -color red @cone_ab -color magenta @cone_a -color blue @cone_b Example: .. literalinclude:: ../../../resources/PRESENTATION_ExAdv/select.v :language: verilog :caption: ``docs/resources/PRESENTATION_ExAdv/select.v`` .. literalinclude:: ../../../resources/PRESENTATION_ExAdv/select.ys :language: yoscrypt :caption: ``docs/resources/PRESENTATION_ExAdv/select.ys`` .. figure:: /_images/res/PRESENTATION_ExAdv/select.* :class: width-helper .. todo:: combine below sections into above where possible Working with selections ~~~~~~~~~~~~~~~~~~~~~~~ .. figure:: /_images/011/example_03.* :class: width-helper :name: seladd Output of :cmd:ref:`show` after ``select $2`` or ``select t:$add`` (see also :numref:`example_out`) But for most interactive work we want to further narrow the set of selected objects. This can be done using the :cmd:ref:`select` command. For example, if the command ``select $2`` is executed, a subsequent :cmd:ref:`show` command will yield the diagram shown in :numref:`seladd`. Note that the nets are now displayed in ellipses. This indicates that they are not selected, but only shown because the diagram contains a cell that is connected to the net. This of course makes no difference for the circuit that is shown, but it can be a useful information when manipulating selections. Objects can not only be selected by their name but also by other properties. For example ``select t:$add`` will select all cells of type ``$add``. In this case this is also yields the diagram shown in :numref:`seladd`. .. literalinclude:: ../APPNOTE_011_Design_Investigation/foobaraddsub.v :caption: Test module for operations on selections :name: foobaraddsub :language: verilog The output of ``help select`` contains a complete syntax reference for matching different properties. Many commands can operate on explicit selections. For example the command ``dump t:$add`` will print information on all ``$add`` cells in the active module. Whenever a command has ``[selection]`` as last argument in its usage help, this means that it will use the engine behind the :cmd:ref:`select` command to evaluate additional arguments and use the resulting selection instead of the selection created by the last :cmd:ref:`select` command. Normally the :cmd:ref:`select` command overwrites a previous selection. The commands ``select -add`` and ``select -del`` can be used to add or remove objects from the current selection. The command ``select -clear`` can be used to reset the selection to the default, which is a complete selection of everything in the current module. Operations on selections ~~~~~~~~~~~~~~~~~~~~~~~~ .. literalinclude:: ../APPNOTE_011_Design_Investigation/sumprod.v :caption: Another test module for operations on selections :name: sumprod :language: verilog .. figure:: /_images/011/sumprod_00.* :class: width-helper :name: sumprod_00 Output of ``show a:sumstuff`` on :numref:`sumprod` The :cmd:ref:`select` command is actually much more powerful than it might seem on the first glimpse. When it is called with multiple arguments, each argument is evaluated and pushed separately on a stack. After all arguments have been processed it simply creates the union of all elements on the stack. So the following command will select all ``$add`` cells and all objects with the ``foo`` attribute set: .. code-block:: yoscrypt select t:$add a:foo (Try this with the design shown in :numref:`foobaraddsub`. Use the ``select -list`` command to list the current selection.) In many cases simply adding more and more stuff to the selection is an ineffective way of selecting the interesting part of the design. Special arguments can be used to combine the elements on the stack. For example the ``%i`` arguments pops the last two elements from the stack, intersects them, and pushes the result back on the stack. So the following command will select all ``$add ``cells that have the ``foo`` attribute set: .. code-block:: yoscrypt select t:$add a:foo %i The listing in :numref:`sumprod` uses the Yosys non-standard ``{... *}`` syntax to set the attribute ``sumstuff`` on all cells generated by the first assign statement. (This works on arbitrary large blocks of Verilog code an can be used to mark portions of code for analysis.) Selecting ``a:sumstuff`` in this module will yield the circuit diagram shown in :numref:`sumprod_00`. As only the cells themselves are selected, but not the temporary wire ``$1_Y``, the two adders are shown as two disjunct parts. This can be very useful for global signals like clock and reset signals: just unselect them using a command such as ``select -del clk rst`` and each cell using them will get its own net label. In this case however we would like to see the cells connected properly. This can be achieved using the ``%x`` action, that broadens the selection, i.e. for each selected wire it selects all cells connected to the wire and vice versa. So ``show a:sumstuff %x`` yields the diagram shown in :numref:`sumprod_01`. .. figure:: /_images/011/sumprod_01.* :class: width-helper :name: sumprod_01 Output of ``show a:sumstuff %x`` on :numref:`sumprod` Selecting logic cones ~~~~~~~~~~~~~~~~~~~~~ :numref:`sumprod_01` shows what is called the ``input cone`` of ``sum``, i.e. all cells and signals that are used to generate the signal ``sum``. The ``%ci`` action can be used to select the input cones of all object in the top selection in the stack maintained by the :cmd:ref:`select` command. As the ``%x`` action, this commands broadens the selection by one "step". But this time the operation only works against the direction of data flow. That means, wires only select cells via output ports and cells only select wires via input ports. :numref:`select_prod` show the sequence of diagrams generated by the following commands: .. code-block:: yoscrypt show prod show prod %ci show prod %ci %ci show prod %ci %ci %ci When selecting many levels of logic, repeating ``%ci`` over and over again can be a bit dull. So there is a shortcut for that: the number of iterations can be appended to the action. So for example the action ``%ci3`` is identical to performing the ``%ci`` action three times. The action ``%ci*`` performs the ``%ci`` action over and over again until it has no effect anymore. .. figure:: /_images/011/select_prod.* :class: width-helper :name: select_prod Objects selected by ``select prod %ci...`` In most cases there are certain cell types and/or ports that should not be considered for the ``%ci`` action, or we only want to follow certain cell types and/or ports. This can be achieved using additional patterns that can be appended to the ``%ci`` action. Lets consider the design from :numref:`memdemo_src`. It serves no purpose other than being a non-trivial circuit for demonstrating some of the advanced Yosys features. We synthesize the circuit using ``proc; opt; memory; opt`` and change to the ``memdemo`` module with ``cd memdemo``. If we type :cmd:ref:`show` now we see the diagram shown in :numref:`memdemo_00`. .. literalinclude:: ../APPNOTE_011_Design_Investigation/memdemo.v :caption: Demo circuit for demonstrating some advanced Yosys features :name: memdemo_src :language: verilog .. figure:: /_images/011/memdemo_00.* :class: width-helper :name: memdemo_00 Complete circuit diagram for the design shown in :numref:`memdemo_src` But maybe we are only interested in the tree of multiplexers that select the output value. In order to get there, we would start by just showing the output signal and its immediate predecessors: .. code-block:: yoscrypt show y %ci2 From this we would learn that ``y`` is driven by a ``$dff cell``, that ``y`` is connected to the output port ``Q``, that the ``clk`` signal goes into the ``CLK`` input port of the cell, and that the data comes from a auto-generated wire into the input ``D`` of the flip-flop cell. As we are not interested in the clock signal we add an additional pattern to the ``%ci`` action, that tells it to only follow ports ``Q`` and ``D`` of ``$dff`` cells: .. code-block:: yoscrypt show y %ci2:+$dff[Q,D] To add a pattern we add a colon followed by the pattern to the ``%ci`` action. The pattern it self starts with ``-`` or ``+``, indicating if it is an include or exclude pattern, followed by an optional comma separated list of cell types, followed by an optional comma separated list of port names in square brackets. Since we know that the only cell considered in this case is a ``$dff`` cell, we could as well only specify the port names: .. code-block:: yoscrypt show y %ci2:+[Q,D] Or we could decide to tell the ``%ci`` action to not follow the ``CLK`` input: .. code-block:: yoscrypt show y %ci2:-[CLK] .. figure:: /_images/011/memdemo_01.* :class: width-helper :name: memdemo_01 Output of ``show y %ci2:+$dff[Q,D] %ci*:-$mux[S]:-$dff`` Next we would investigate the next logic level by adding another ``%ci2`` to the command: .. code-block:: yoscrypt show y %ci2:-[CLK] %ci2 From this we would learn that the next cell is a ``$mux`` cell and we would add additional pattern to narrow the selection on the path we are interested. In the end we would end up with a command such as .. code-block:: yoscrypt show y %ci2:+$dff[Q,D] %ci*:-$mux[S]:-$dff in which the first ``%ci`` jumps over the initial d-type flip-flop and the 2nd action selects the entire input cone without going over multiplexer select inputs and flip-flop cells. The diagram produces by this command is shown in :numref:`memdemo_01`. Similar to ``%ci`` exists an action ``%co`` to select output cones that accepts the same syntax for pattern and repetition. The ``%x`` action mentioned previously also accepts this advanced syntax. This actions for traversing the circuit graph, combined with the actions for boolean operations such as intersection (``%i``) and difference (``%d``) are powerful tools for extracting the relevant portions of the circuit under investigation. See ``help select`` for a complete list of actions available in selections. Storing and recalling selections ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The current selection can be stored in memory with the command ``select -set ``. It can later be recalled using ``select @``. In fact, the ``@`` expression pushes the stored selection on the stack maintained by the :cmd:ref:`select` command. So for example .. code-block:: yoscrypt select @foo @bar %i will select the intersection between the stored selections ``foo`` and ``bar``. In larger investigation efforts it is highly recommended to maintain a script that sets up relevant selections, so they can easily be recalled, for example when Yosys needs to be re-run after a design or source code change. The :cmd:ref:`history` command can be used to list all recent interactive commands. This feature can be useful for creating such a script from the commands used in an interactive session.