mirror of https://github.com/YosysHQ/yosys.git
225 lines
7.9 KiB
Markdown
225 lines
7.9 KiB
Markdown
Pattern Matcher Generator
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=========================
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The program `pmgen.py` reads a `.pmg` (Pattern Matcher Generator) file and
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writes a header-only C++ library that implements that pattern matcher.
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The "patterns" in this context are subgraphs in a Yosys RTLIL netlist.
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The algorithm used in the generated pattern matcher is a simple recursive
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search with backtracking. It is left to the author of the `.pmg` file to
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determine an efficient cell order for the search that allows for maximum
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use of indices and early backtracking.
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API of Generated Matcher
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========================
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When `pmgen.py` reads a `foobar.pmg` file, it writes `foobar_pm.h` containing
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a class `foobar_pm`. That class is instantiated with an RTLIL module and a
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list of cells from that module:
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foobar_pm pm(module, module->selected_cells());
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The caller must make sure that none of the cells in the 2nd argument are
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deleted for as long as the patter matcher instance is used.
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At any time it is possible to disable cells, preventing them from showing
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up in any future matches:
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pm.blacklist(some_cell);
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The `.run(callback_function)` method searches for all matches and calls the
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callback function for each found match:
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pm.run([&](){
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log("found matching 'foo' cell: %s\n", log_id(pm.st.foo));
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log(" with 'bar' cell: %s\n", log_id(pm.st.bar));
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});
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The `.pmg` file declares matcher state variables that are accessible via the
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`.st.<state_name>` members. (The `.st` member is of type `foobar_pm::state_t`.)
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Similarly the `.pmg` file declares user data variables that become members of
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`.ud`, a struct of type `foobar_pm::udata_t`.
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The .pmg File Format
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====================
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The `.pmg` file format is a simple line-based file format. For the most part
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lines consist of whitespace-separated tokens.
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Lines in `.pmg` files starting with `//` are comments.
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Declaring state variables
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-------------------------
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One or more state variables can be declared using the `state` statement,
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followed by a C++ type in angle brackets, followed by a whitespace separated
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list of variable names. For example:
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state <bool> flag1 flag2 happy big
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state <SigSpec> sigA sigB sigY
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State variables are automatically managed by the generated backtracking algorithm
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and saved and restored as needed.
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They are automatically initialized to the default constructed value of their type
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when `.run(callback_function)` is called.
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Declaring udata variables
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-------------------------
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Udata (user-data) variables can be used for example to configure the matcher or
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the callback function used to perform actions on found matches.
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There is no automatic management of udata variables. For this reason it is
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recommended that the user-supplied matcher code treats them as read-only
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variables.
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They are declared like state variables, just using the `udata` statement:
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udata <int> min_data_width max_data_width
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udata <IdString> data_port_name
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They are atomatically initialzed to the default constructed value of their type
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when ther pattern matcher object is constructed.
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Embedded C++ code
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-----------------
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Many statements in a `.pmg` file contain C++ code. However, there are some
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slight additions to regular C++/Yosys/RTLIL code that make it a bit easier to
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write matchers:
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- Identifiers starting with a dollar sign or backslash are automatically
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converted to special IdString variables that are initialized when the
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matcher object is constructed.
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- The `port(<cell>, <portname>)` function is a handy alias for
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`sigmap(<cell>->getPort(<portname>))`.
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- Similarly `param(<cell>, <paramname>)` looks up a parameter on a cell.
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- The function `nusers(<sigspec>)` returns the number of different cells
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connected to any of the given signal bits, plus one if any of the signal
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bits is also a primary input or primary output.
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- In `code..endcode` blocks there exist `accept`, `reject`, and `branch`
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statements.
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- In `index` statements there is a special `===` operator for the index
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lookup.
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Matching cells
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--------------
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Cells are matched using `match..endmatch` blocks. For example:
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match mul
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if ff
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select mul->type == $mul
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select nusers(port(mul, \Y) == 2
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index <SigSpec> port(mul, \Y) === port(ff, \D)
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filter some_weird_function(mul) < other_weird_function(ff)
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optional
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endmatch
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A `match` block starts with `match <statevar>` and implicitly generates
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a state variable `<statevar>` of type `RTLIL::Cell*`.
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All statements in the match block are optional. (An empty match block
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would simply match each and every cell in the module.)
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The `if <expression>` statement makes the match block conditional. If
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`<expression>` evaluates to `false` then the match block will be ignored
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and the corresponding state variable is set to `nullptr`. In our example
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we only try to match the `mul` cell if the `ff` state variable points
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to a cell. (Presumably `ff` is provided by a prior `match` block.)
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The `select` lines are evaluated once for each cell when the matcher is
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initialized. A `match` block will only consider cells for which all `select`
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expressions evaluated to `true`. Note that the state variable corresponding to
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the match (in the example `mul`) is the only state variable that may be used
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in `select` lines.
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Index lines are using the `index <type> expr1 === expr2` syntax. `expr1` is
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evaluated during matcher initialization and the same restrictions apply as for
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`select` expressions. `expr2` is evaluated when the match is calulated. It is a
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function of any state variables assigned to by previous blocks. Both expression
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are converted to the given type and compared for equality. Only cells for which
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all `index` statements in the block pass are considered by the match.
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Note that `select` and `index` are fast operations. Thus `select` and `index`
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should be used whenever possible to create efficient matchers.
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Finally, `filter <expression>` narrows down the remaining list of cells. For
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performance reasons `filter` statements should only be used for things that
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can't be done using `select` and `index`.
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The `optional` statement marks optional matches. I.e. the matcher will also
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explore the case where `mul` is set to `nullptr`. Without the `optional`
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statement a match may only be assigned nullptr when one of the `if` expressions
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evaluates to `false`.
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Additional code
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---------------
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Interleaved with `match..endmatch` blocks there may be `code..endcode` blocks.
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Such a block starts with the keyword `code` followed by a list of state variables
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that the block may modify. For example:
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code addAB sigS
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if (addA) {
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addAB = addA;
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sigS = port(addA, \B);
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}
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if (addB) {
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addAB = addB;
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sigS = port(addB, \A);
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}
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endcode
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The special keyword `reject` can be used to reject the current state and
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backtrack. For example:
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code
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if (ffA && ffB) {
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if (port(ffA, \CLK) != port(ffB, \CLK))
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reject;
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if (param(ffA, \CLK_POLARITY) != param(ffB, \CLK_POLARITY))
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reject;
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}
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endcode
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Similarly, the special keyword `accept` can be used to accept the current
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state. (`accept` will not backtrack. This means it continues with the current
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branch and may accept a larger match later.)
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The special keyword `branch` can be used to explore different cases. Note that
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each code block has an implicit `branch` at the end. So most use-cases of the
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`branch` keyword need to end the block with `reject` to avoid the implicit
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branch at the end. For example:
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state <int> mode
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code mode
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for (mode = 0; mode < 8; mode++)
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branch;
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reject;
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endcode
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But in some cases it is more natural to utilize the implicit branch statement:
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state <IdString> portAB
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code portAB
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portAB = \A;
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branch;
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portAB = \B;
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endcode
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There is an implicit `code..endcode` block at the end of each `.pgm` file
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that just accepts everything that gets all the way there.
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