.. Copyright (C) 2014-2020 Free Software Foundation, Inc. Originally contributed by David Malcolm This is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . .. default-domain:: c Creating and using functions ============================ Params ------ .. type:: gcc_jit_param A `gcc_jit_param` represents a parameter to a function. .. function:: gcc_jit_param *\ gcc_jit_context_new_param (gcc_jit_context *ctxt,\ gcc_jit_location *loc,\ gcc_jit_type *type,\ const char *name) In preparation for creating a function, create a new parameter of the given type and name. The parameter ``name`` must be non-NULL. The call takes a copy of the underlying string, so it is valid to pass in a pointer to an on-stack buffer. Parameters are lvalues, and thus are also rvalues (and objects), so the following upcasts are available: .. function:: gcc_jit_lvalue *\ gcc_jit_param_as_lvalue (gcc_jit_param *param) Upcasting from param to lvalue. .. function:: gcc_jit_rvalue *\ gcc_jit_param_as_rvalue (gcc_jit_param *param) Upcasting from param to rvalue. .. function:: gcc_jit_object *\ gcc_jit_param_as_object (gcc_jit_param *param) Upcasting from param to object. Functions --------- .. type:: gcc_jit_function A `gcc_jit_function` represents a function - either one that we're creating ourselves, or one that we're referencing. .. function:: gcc_jit_function *\ gcc_jit_context_new_function (gcc_jit_context *ctxt,\ gcc_jit_location *loc,\ enum gcc_jit_function_kind kind,\ gcc_jit_type *return_type,\ const char *name,\ int num_params,\ gcc_jit_param **params,\ int is_variadic) Create a gcc_jit_function with the given name and parameters. .. type:: enum gcc_jit_function_kind This enum controls the kind of function created, and has the following values: .. macro:: GCC_JIT_FUNCTION_EXPORTED Function is defined by the client code and visible by name outside of the JIT. This value is required if you want to extract machine code for this function from a :type:`gcc_jit_result` via :func:`gcc_jit_result_get_code`. .. macro:: GCC_JIT_FUNCTION_INTERNAL Function is defined by the client code, but is invisible outside of the JIT. Analogous to a "static" function. .. macro:: GCC_JIT_FUNCTION_IMPORTED Function is not defined by the client code; we're merely referring to it. Analogous to using an "extern" function from a header file. .. macro:: GCC_JIT_FUNCTION_ALWAYS_INLINE Function is only ever inlined into other functions, and is invisible outside of the JIT. Analogous to prefixing with ``inline`` and adding ``__attribute__((always_inline))`` Inlining will only occur when the optimization level is above 0; when optimization is off, this is essentially the same as GCC_JIT_FUNCTION_INTERNAL. The parameter ``name`` must be non-NULL. The call takes a copy of the underlying string, so it is valid to pass in a pointer to an on-stack buffer. .. function:: gcc_jit_function *\ gcc_jit_context_get_builtin_function (gcc_jit_context *ctxt,\ const char *name) .. function:: gcc_jit_object *\ gcc_jit_function_as_object (gcc_jit_function *func) Upcasting from function to object. .. function:: gcc_jit_param *\ gcc_jit_function_get_param (gcc_jit_function *func, int index) Get the param of the given index (0-based). .. function:: void \ gcc_jit_function_dump_to_dot (gcc_jit_function *func,\ const char *path) Emit the function in graphviz format to the given path. .. function:: gcc_jit_lvalue *\ gcc_jit_function_new_local (gcc_jit_function *func,\ gcc_jit_location *loc,\ gcc_jit_type *type,\ const char *name) Create a new local variable within the function, of the given type and name. The parameter ``name`` must be non-NULL. The call takes a copy of the underlying string, so it is valid to pass in a pointer to an on-stack buffer. Blocks ------ .. type:: gcc_jit_block A `gcc_jit_block` represents a basic block within a function i.e. a sequence of statements with a single entry point and a single exit point. The first basic block that you create within a function will be the entrypoint. Each basic block that you create within a function must be terminated, either with a conditional, a jump, a return, or a switch. It's legal to have multiple basic blocks that return within one function. .. function:: gcc_jit_block *\ gcc_jit_function_new_block (gcc_jit_function *func,\ const char *name) Create a basic block of the given name. The name may be NULL, but providing meaningful names is often helpful when debugging: it may show up in dumps of the internal representation, and in error messages. It is copied, so the input buffer does not need to outlive the call; you can pass in a pointer to an on-stack buffer, e.g.: .. code-block:: c for (pc = 0; pc < fn->fn_num_ops; pc++) { char buf[16]; sprintf (buf, "instr%i", pc); state.op_blocks[pc] = gcc_jit_function_new_block (state.fn, buf); } .. function:: gcc_jit_object *\ gcc_jit_block_as_object (gcc_jit_block *block) Upcast from block to object. .. function:: gcc_jit_function *\ gcc_jit_block_get_function (gcc_jit_block *block) Which function is this block within? Statements ---------- .. function:: void\ gcc_jit_block_add_eval (gcc_jit_block *block,\ gcc_jit_location *loc,\ gcc_jit_rvalue *rvalue) Add evaluation of an rvalue, discarding the result (e.g. a function call that "returns" void). This is equivalent to this C code: .. code-block:: c (void)expression; .. function:: void\ gcc_jit_block_add_assignment (gcc_jit_block *block,\ gcc_jit_location *loc,\ gcc_jit_lvalue *lvalue,\ gcc_jit_rvalue *rvalue) Add evaluation of an rvalue, assigning the result to the given lvalue. This is roughly equivalent to this C code: .. code-block:: c lvalue = rvalue; .. function:: void\ gcc_jit_block_add_assignment_op (gcc_jit_block *block,\ gcc_jit_location *loc,\ gcc_jit_lvalue *lvalue,\ enum gcc_jit_binary_op op,\ gcc_jit_rvalue *rvalue) Add evaluation of an rvalue, using the result to modify an lvalue. This is analogous to "+=" and friends: .. code-block:: c lvalue += rvalue; lvalue *= rvalue; lvalue /= rvalue; etc. For example: .. code-block:: c /* "i++" */ gcc_jit_block_add_assignment_op ( loop_body, NULL, i, GCC_JIT_BINARY_OP_PLUS, gcc_jit_context_one (ctxt, int_type)); .. function:: void\ gcc_jit_block_add_comment (gcc_jit_block *block,\ gcc_jit_location *loc,\ const char *text) Add a no-op textual comment to the internal representation of the code. It will be optimized away, but will be visible in the dumps seen via :macro:`GCC_JIT_BOOL_OPTION_DUMP_INITIAL_TREE` and :macro:`GCC_JIT_BOOL_OPTION_DUMP_INITIAL_GIMPLE`, and thus may be of use when debugging how your project's internal representation gets converted to the libgccjit IR. The parameter ``text`` must be non-NULL. It is copied, so the input buffer does not need to outlive the call. For example: .. code-block:: c char buf[100]; snprintf (buf, sizeof (buf), "op%i: %s", pc, opcode_names[op->op_opcode]); gcc_jit_block_add_comment (block, loc, buf); .. function:: void\ gcc_jit_block_end_with_conditional (gcc_jit_block *block,\ gcc_jit_location *loc,\ gcc_jit_rvalue *boolval,\ gcc_jit_block *on_true,\ gcc_jit_block *on_false) Terminate a block by adding evaluation of an rvalue, branching on the result to the appropriate successor block. This is roughly equivalent to this C code: .. code-block:: c if (boolval) goto on_true; else goto on_false; block, boolval, on_true, and on_false must be non-NULL. .. function:: void\ gcc_jit_block_end_with_jump (gcc_jit_block *block,\ gcc_jit_location *loc,\ gcc_jit_block *target) Terminate a block by adding a jump to the given target block. This is roughly equivalent to this C code: .. code-block:: c goto target; .. function:: void\ gcc_jit_block_end_with_return (gcc_jit_block *block,\ gcc_jit_location *loc,\ gcc_jit_rvalue *rvalue) Terminate a block by adding evaluation of an rvalue, returning the value. This is roughly equivalent to this C code: .. code-block:: c return expression; .. function:: void\ gcc_jit_block_end_with_void_return (gcc_jit_block *block,\ gcc_jit_location *loc) Terminate a block by adding a valueless return, for use within a function with "void" return type. This is equivalent to this C code: .. code-block:: c return; .. function:: void\ gcc_jit_block_end_with_switch (gcc_jit_block *block,\ gcc_jit_location *loc,\ gcc_jit_rvalue *expr,\ gcc_jit_block *default_block,\ int num_cases,\ gcc_jit_case **cases) Terminate a block by adding evalation of an rvalue, then performing a multiway branch. This is roughly equivalent to this C code: .. code-block:: c switch (expr) { default: goto default_block; case C0.min_value ... C0.max_value: goto C0.dest_block; case C1.min_value ... C1.max_value: goto C1.dest_block; ...etc... case C[N - 1].min_value ... C[N - 1].max_value: goto C[N - 1].dest_block; } ``block``, ``expr``, ``default_block`` and ``cases`` must all be non-NULL. ``expr`` must be of the same integer type as all of the ``min_value`` and ``max_value`` within the cases. ``num_cases`` must be >= 0. The ranges of the cases must not overlap (or have duplicate values). The API entrypoints relating to switch statements and cases: * :c:func:`gcc_jit_block_end_with_switch` * :c:func:`gcc_jit_case_as_object` * :c:func:`gcc_jit_context_new_case` were added in :ref:`LIBGCCJIT_ABI_3`; you can test for their presence using .. code-block:: c #ifdef LIBGCCJIT_HAVE_SWITCH_STATEMENTS .. type:: gcc_jit_case A `gcc_jit_case` represents a case within a switch statement, and is created within a particular :c:type:`gcc_jit_context` using :c:func:`gcc_jit_context_new_case`. Each case expresses a multivalued range of integer values. You can express single-valued cases by passing in the same value for both `min_value` and `max_value`. .. function:: gcc_jit_case *\ gcc_jit_context_new_case (gcc_jit_context *ctxt,\ gcc_jit_rvalue *min_value,\ gcc_jit_rvalue *max_value,\ gcc_jit_block *dest_block) Create a new gcc_jit_case instance for use in a switch statement. `min_value` and `max_value` must be constants of an integer type, which must match that of the expression of the switch statement. `dest_block` must be within the same function as the switch statement. .. function:: gcc_jit_object *\ gcc_jit_case_as_object (gcc_jit_case *case_) Upcast from a case to an object. Here's an example of creating a switch statement: .. literalinclude:: ../../../testsuite/jit.dg/test-switch.c :start-after: /* Quote from here in docs/topics/functions.rst. */ :end-before: /* Quote up to here in docs/topics/functions.rst. */ :language: c