yosys/frontends/verilog/parser.y

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* ---
*
* The Verilog frontend.
*
* This frontend is using the AST frontend library (see frontends/ast/).
* Thus this frontend does not generate RTLIL code directly but creates an
* AST directly from the Verilog parse tree and then passes this AST to
* the AST frontend library.
*
* ---
*
* This is the actual bison parser for Verilog code. The AST ist created directly
* from the bison reduce functions here. Note that this code uses a few global
* variables to hold the state of the AST generator and therefore this parser is
* not reentrant.
*
*/
%{
#include <list>
#include <assert.h>
#include "verilog_frontend.h"
#include "kernel/log.h"
using namespace AST;
using namespace VERILOG_FRONTEND;
namespace VERILOG_FRONTEND {
int port_counter;
std::map<std::string, int> port_stubs;
std::map<std::string, AstNode*> attr_list, default_attr_list;
std::map<std::string, AstNode*> *albuf;
std::vector<AstNode*> ast_stack;
struct AstNode *astbuf1, *astbuf2, *astbuf3;
struct AstNode *current_function_or_task;
struct AstNode *current_ast, *current_ast_mod;
int current_function_or_task_port_id;
std::vector<char> case_type_stack;
}
static void append_attr(AstNode *ast, std::map<std::string, AstNode*> *al)
{
for (auto &it : *al) {
if (ast->attributes.count(it.first) > 0)
delete ast->attributes[it.first];
ast->attributes[it.first] = it.second;
}
delete al;
}
static void append_attr_clone(AstNode *ast, std::map<std::string, AstNode*> *al)
{
for (auto &it : *al) {
if (ast->attributes.count(it.first) > 0)
delete ast->attributes[it.first];
ast->attributes[it.first] = it.second->clone();
}
}
static void free_attr(std::map<std::string, AstNode*> *al)
{
for (auto &it : *al)
delete it.second;
delete al;
}
%}
%name-prefix="frontend_verilog_yy"
%union {
std::string *string;
struct AstNode *ast;
std::map<std::string, AstNode*> *al;
bool boolean;
}
%token <string> TOK_STRING TOK_ID TOK_CONST TOK_PRIMITIVE
%token ATTR_BEGIN ATTR_END DEFATTR_BEGIN DEFATTR_END
%token TOK_MODULE TOK_ENDMODULE TOK_PARAMETER TOK_LOCALPARAM TOK_DEFPARAM
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%token TOK_INPUT TOK_OUTPUT TOK_INOUT TOK_WIRE TOK_REG
%token TOK_INTEGER TOK_SIGNED TOK_ASSIGN TOK_ALWAYS TOK_INITIAL
%token TOK_BEGIN TOK_END TOK_IF TOK_ELSE TOK_FOR
%token TOK_POSEDGE TOK_NEGEDGE TOK_OR
%token TOK_CASE TOK_CASEX TOK_CASEZ TOK_ENDCASE TOK_DEFAULT
%token TOK_FUNCTION TOK_ENDFUNCTION TOK_TASK TOK_ENDTASK
%token TOK_GENERATE TOK_ENDGENERATE TOK_GENVAR
%token TOK_SYNOPSYS_FULL_CASE TOK_SYNOPSYS_PARALLEL_CASE
%token TOK_SUPPLY0 TOK_SUPPLY1 TOK_TO_SIGNED TOK_TO_UNSIGNED
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%token TOK_POS_INDEXED TOK_NEG_INDEXED
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%type <ast> wire_type range non_opt_range expr basic_expr concat_list rvalue lvalue lvalue_concat_list
%type <string> opt_label tok_prim_wrapper hierarchical_id
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%type <boolean> opt_signed
%type <al> attr
// operator precedence from low to high
%left OP_LOR
%left OP_LAND
%left '|' OP_NOR
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%left '^' OP_XNOR
%left '&' OP_NAND
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%left OP_EQ OP_NE
%left '<' OP_LE OP_GE '>'
%left OP_SHL OP_SHR OP_SSHL OP_SSHR
%left '+' '-'
%left '*' '/' '%'
%left OP_POW
%right UNARY_OPS
%expect 2
%debug
%%
input:
module input |
defattr input |
/* empty */ {
for (auto &it : default_attr_list)
delete it.second;
default_attr_list.clear();
};
attr:
{
for (auto &it : attr_list)
delete it.second;
attr_list.clear();
for (auto &it : default_attr_list)
attr_list[it.first] = it.second->clone();
} attr_opt {
std::map<std::string, AstNode*> *al = new std::map<std::string, AstNode*>;
al->swap(attr_list);
$$ = al;
};
attr_opt:
attr_opt ATTR_BEGIN opt_attr_list ATTR_END |
/* empty */;
defattr:
DEFATTR_BEGIN {
for (auto &it : default_attr_list)
delete it.second;
default_attr_list.clear();
for (auto &it : attr_list)
delete it.second;
attr_list.clear();
} opt_attr_list {
default_attr_list = attr_list;
attr_list.clear();
} DEFATTR_END;
opt_attr_list:
attr_list | /* empty */;
attr_list:
attr_assign |
attr_list ',' attr_assign;
attr_assign:
hierarchical_id {
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if (attr_list.count(*$1) != 0)
delete attr_list[*$1];
attr_list[*$1] = AstNode::mkconst_int(1, false);
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delete $1;
} |
hierarchical_id '=' expr {
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if (attr_list.count(*$1) != 0)
delete attr_list[*$1];
attr_list[*$1] = $3;
delete $1;
};
hierarchical_id:
TOK_ID {
$$ = $1;
} |
hierarchical_id '.' TOK_ID {
if ($3->substr(0, 1) == "\\")
*$1 += "." + $3->substr(1);
else
*$1 += "." + *$3;
delete $3;
$$ = $1;
};
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module:
attr TOK_MODULE TOK_ID {
AstNode *mod = new AstNode(AST_MODULE);
current_ast->children.push_back(mod);
current_ast_mod = mod;
ast_stack.push_back(mod);
port_stubs.clear();
port_counter = 0;
mod->str = *$3;
append_attr(mod, $1);
delete $3;
} module_para_opt module_args_opt ';' module_body TOK_ENDMODULE {
if (port_stubs.size() != 0)
frontend_verilog_yyerror("Missing details for module port `%s'.",
port_stubs.begin()->first.c_str());
ast_stack.pop_back();
assert(ast_stack.size() == 0);
};
module_para_opt:
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'#' '(' module_para_list ')' | /* empty */;
module_para_list:
single_module_para |
single_module_para ',' module_para_list |
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/* empty */;
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single_module_para:
TOK_PARAMETER {
astbuf1 = new AstNode(AST_PARAMETER);
astbuf1->children.push_back(AstNode::mkconst_int(0, true));
} param_signed param_integer param_range single_param_decl {
delete astbuf1;
};
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module_args_opt:
'(' ')' | /* empty */ | '(' module_args optional_comma ')';
module_args:
module_arg | module_args ',' module_arg;
optional_comma:
',' | /* empty */;
module_arg_opt_assignment:
'=' expr {
if (ast_stack.back()->children.size() > 0 && ast_stack.back()->children.back()->type == AST_WIRE) {
AstNode *wire = new AstNode(AST_IDENTIFIER);
wire->str = ast_stack.back()->children.back()->str;
if (ast_stack.back()->children.back()->is_reg)
ast_stack.back()->children.push_back(new AstNode(AST_INITIAL, new AstNode(AST_BLOCK, new AstNode(AST_ASSIGN_LE, wire, $2))));
else
ast_stack.back()->children.push_back(new AstNode(AST_ASSIGN, wire, $2));
} else
frontend_verilog_yyerror("Syntax error.");
} |
/* empty */;
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module_arg:
TOK_ID {
if (ast_stack.back()->children.size() > 0 && ast_stack.back()->children.back()->type == AST_WIRE) {
AstNode *node = ast_stack.back()->children.back()->clone();
node->str = *$1;
node->port_id = ++port_counter;
ast_stack.back()->children.push_back(node);
} else {
if (port_stubs.count(*$1) != 0)
frontend_verilog_yyerror("Duplicate module port `%s'.", $1->c_str());
port_stubs[*$1] = ++port_counter;
}
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delete $1;
} module_arg_opt_assignment |
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attr wire_type range TOK_ID {
AstNode *node = $2;
node->str = *$4;
node->port_id = ++port_counter;
if ($3 != NULL)
node->children.push_back($3);
if (!node->is_input && !node->is_output)
frontend_verilog_yyerror("Module port `%s' is neither input nor output.", $4->c_str());
if (node->is_reg && node->is_input && !node->is_output)
frontend_verilog_yyerror("Input port `%s' is declared as register.", $4->c_str());
ast_stack.back()->children.push_back(node);
append_attr(node, $1);
delete $4;
} module_arg_opt_assignment;
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wire_type:
{
astbuf3 = new AstNode(AST_WIRE);
} wire_type_token_list {
$$ = astbuf3;
};
wire_type_token_list:
wire_type_token | wire_type_token_list wire_type_token;
wire_type_token:
TOK_INPUT {
astbuf3->is_input = true;
} |
TOK_OUTPUT {
astbuf3->is_output = true;
} |
TOK_INOUT {
astbuf3->is_input = true;
astbuf3->is_output = true;
} |
TOK_WIRE {
} |
TOK_REG {
astbuf3->is_reg = true;
} |
TOK_INTEGER {
astbuf3->is_reg = true;
astbuf3->range_left = 31;
astbuf3->range_right = 0;
} |
TOK_GENVAR {
astbuf3->type = AST_GENVAR;
astbuf3->is_reg = true;
astbuf3->range_left = 31;
astbuf3->range_right = 0;
} |
TOK_SIGNED {
astbuf3->is_signed = true;
};
non_opt_range:
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'[' expr ':' expr ']' {
$$ = new AstNode(AST_RANGE);
$$->children.push_back($2);
$$->children.push_back($4);
} |
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'[' expr TOK_POS_INDEXED expr ']' {
$$ = new AstNode(AST_RANGE);
$$->children.push_back(new AstNode(AST_SUB, new AstNode(AST_ADD, $2->clone(), $4), AstNode::mkconst_int(1, true)));
$$->children.push_back(new AstNode(AST_ADD, $2, AstNode::mkconst_int(0, true)));
} |
'[' expr TOK_NEG_INDEXED expr ']' {
$$ = new AstNode(AST_RANGE);
$$->children.push_back(new AstNode(AST_ADD, $2, AstNode::mkconst_int(0, true)));
$$->children.push_back(new AstNode(AST_SUB, new AstNode(AST_ADD, $2->clone(), AstNode::mkconst_int(1, true)), $4));
} |
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'[' expr ']' {
$$ = new AstNode(AST_RANGE);
$$->children.push_back($2);
};
range:
non_opt_range {
$$ = $1;
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} |
/* empty */ {
$$ = NULL;
};
module_body:
module_body module_body_stmt |
/* empty */;
module_body_stmt:
task_func_decl | param_decl | localparam_decl | defparam_decl | wire_decl | assign_stmt | cell_stmt |
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always_stmt | TOK_GENERATE module_gen_body TOK_ENDGENERATE | defattr;
task_func_decl:
TOK_TASK TOK_ID ';' {
current_function_or_task = new AstNode(AST_TASK);
current_function_or_task->str = *$2;
ast_stack.back()->children.push_back(current_function_or_task);
ast_stack.push_back(current_function_or_task);
current_function_or_task_port_id = 1;
delete $2;
} task_func_body TOK_ENDTASK {
current_function_or_task = NULL;
ast_stack.pop_back();
} |
TOK_FUNCTION opt_signed range TOK_ID ';' {
current_function_or_task = new AstNode(AST_FUNCTION);
current_function_or_task->str = *$4;
ast_stack.back()->children.push_back(current_function_or_task);
ast_stack.push_back(current_function_or_task);
AstNode *outreg = new AstNode(AST_WIRE);
if ($3 != NULL)
outreg->children.push_back($3);
outreg->str = *$4;
outreg->is_signed = $2;
current_function_or_task->children.push_back(outreg);
current_function_or_task_port_id = 1;
delete $4;
} task_func_body TOK_ENDFUNCTION {
current_function_or_task = NULL;
ast_stack.pop_back();
};
opt_signed:
TOK_SIGNED {
$$ = true;
} |
/* empty */ {
$$ = false;
};
task_func_body:
task_func_body wire_decl |
task_func_body behavioral_stmt |
/* empty */;
param_signed:
TOK_SIGNED {
astbuf1->is_signed = true;
} | /* empty */;
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param_integer:
TOK_INTEGER {
if (astbuf1->children.size() != 1)
frontend_verilog_yyerror("Syntax error.");
astbuf1->children.push_back(new AstNode(AST_RANGE));
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astbuf1->children.back()->children.push_back(AstNode::mkconst_int(31, true));
astbuf1->children.back()->children.push_back(AstNode::mkconst_int(0, true));
} | /* empty */;
param_range:
range {
if ($1 != NULL) {
if (astbuf1->children.size() != 1)
frontend_verilog_yyerror("Syntax error.");
astbuf1->children.push_back($1);
}
};
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param_decl:
TOK_PARAMETER {
astbuf1 = new AstNode(AST_PARAMETER);
astbuf1->children.push_back(AstNode::mkconst_int(0, true));
} param_signed param_integer param_range param_decl_list ';' {
delete astbuf1;
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};
localparam_decl:
TOK_LOCALPARAM {
astbuf1 = new AstNode(AST_LOCALPARAM);
astbuf1->children.push_back(AstNode::mkconst_int(0, true));
} param_signed param_integer param_range param_decl_list ';' {
delete astbuf1;
};
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param_decl_list:
single_param_decl | param_decl_list ',' single_param_decl;
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single_param_decl:
TOK_ID '=' expr {
AstNode *node = astbuf1->clone();
node->str = *$1;
delete node->children[0];
node->children[0] = $3;
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ast_stack.back()->children.push_back(node);
delete $1;
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};
defparam_decl:
TOK_DEFPARAM defparam_decl_list ';';
defparam_decl_list:
single_defparam_decl | defparam_decl_list ',' single_defparam_decl;
single_defparam_decl:
range hierarchical_id '=' expr {
AstNode *node = new AstNode(AST_DEFPARAM);
node->str = *$2;
node->children.push_back($4);
if ($1 != NULL)
node->children.push_back($1);
ast_stack.back()->children.push_back(node);
delete $2;
};
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wire_decl:
attr wire_type range {
albuf = $1;
astbuf1 = $2;
astbuf2 = $3;
if (astbuf1->range_left >= 0 && astbuf1->range_right >= 0) {
if (astbuf2) {
frontend_verilog_yyerror("Syntax error.");
} else {
astbuf2 = new AstNode(AST_RANGE);
astbuf2->children.push_back(AstNode::mkconst_int(astbuf1->range_left, true));
astbuf2->children.push_back(AstNode::mkconst_int(astbuf1->range_right, true));
}
}
if (astbuf2 && astbuf2->children.size() != 2)
frontend_verilog_yyerror("Syntax error.");
} wire_name_list ';' {
delete astbuf1;
if (astbuf2 != NULL)
delete astbuf2;
free_attr(albuf);
} |
attr TOK_SUPPLY0 TOK_ID ';' {
ast_stack.back()->children.push_back(new AstNode(AST_WIRE));
ast_stack.back()->children.back()->str = *$3;
append_attr(ast_stack.back()->children.back(), $1);
ast_stack.back()->children.push_back(new AstNode(AST_ASSIGN, new AstNode(AST_IDENTIFIER), AstNode::mkconst_int(0, false, 1)));
ast_stack.back()->children.back()->children[0]->str = *$3;
delete $3;
} |
attr TOK_SUPPLY1 TOK_ID ';' {
ast_stack.back()->children.push_back(new AstNode(AST_WIRE));
ast_stack.back()->children.back()->str = *$3;
append_attr(ast_stack.back()->children.back(), $1);
ast_stack.back()->children.push_back(new AstNode(AST_ASSIGN, new AstNode(AST_IDENTIFIER), AstNode::mkconst_int(1, false, 1)));
ast_stack.back()->children.back()->children[0]->str = *$3;
delete $3;
};
wire_name_list:
wire_name_and_opt_assign | wire_name_list ',' wire_name_and_opt_assign;
wire_name_and_opt_assign:
wire_name |
wire_name '=' expr {
AstNode *wire = new AstNode(AST_IDENTIFIER);
wire->str = ast_stack.back()->children.back()->str;
if (astbuf1->is_reg)
ast_stack.back()->children.push_back(new AstNode(AST_INITIAL, new AstNode(AST_BLOCK, new AstNode(AST_ASSIGN_LE, wire, $3))));
else
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ast_stack.back()->children.push_back(new AstNode(AST_ASSIGN, wire, $3));
};
wire_name:
TOK_ID range {
AstNode *node = astbuf1->clone();
node->str = *$1;
append_attr_clone(node, albuf);
if (astbuf2 != NULL)
node->children.push_back(astbuf2->clone());
if ($2 != NULL) {
if (node->is_input || node->is_output)
frontend_verilog_yyerror("Syntax error.");
if (!astbuf2) {
AstNode *rng = new AstNode(AST_RANGE);
rng->children.push_back(AstNode::mkconst_int(0, true));
rng->children.push_back(AstNode::mkconst_int(0, true));
node->children.push_back(rng);
}
node->type = AST_MEMORY;
node->children.push_back($2);
}
if (current_function_or_task == NULL) {
if (port_stubs.count(*$1) != 0) {
if (!node->is_input && !node->is_output)
frontend_verilog_yyerror("Module port `%s' is neither input nor output.", $1->c_str());
if (node->is_reg && node->is_input && !node->is_output)
frontend_verilog_yyerror("Input port `%s' is declared as register.", $1->c_str());
node->port_id = port_stubs[*$1];
port_stubs.erase(*$1);
} else {
if (node->is_input || node->is_output)
frontend_verilog_yyerror("Module port `%s' is not declared in module header.", $1->c_str());
}
ast_stack.back()->children.push_back(node);
} else {
if (node->is_input || node->is_output)
node->port_id = current_function_or_task_port_id++;
current_function_or_task->children.push_back(node);
}
delete $1;
};
assign_stmt:
TOK_ASSIGN assign_expr_list ';';
assign_expr_list:
assign_expr | assign_expr_list ',' assign_expr;
assign_expr:
expr '=' expr {
ast_stack.back()->children.push_back(new AstNode(AST_ASSIGN, $1, $3));
};
cell_stmt:
attr TOK_ID {
astbuf1 = new AstNode(AST_CELL);
append_attr(astbuf1, $1);
astbuf1->children.push_back(new AstNode(AST_CELLTYPE));
astbuf1->children[0]->str = *$2;
delete $2;
} cell_parameter_list_opt cell_list ';' {
delete astbuf1;
} |
attr tok_prim_wrapper {
astbuf1 = new AstNode(AST_PRIMITIVE);
astbuf1->str = *$2;
append_attr(astbuf1, $1);
delete $2;
} prim_list ';' {
delete astbuf1;
};
tok_prim_wrapper:
TOK_PRIMITIVE {
$$ = $1;
} |
TOK_OR {
$$ = new std::string("or");
};
cell_list:
single_cell |
cell_list ',' single_cell;
single_cell:
TOK_ID {
astbuf2 = astbuf1->clone();
if (astbuf2->type != AST_PRIMITIVE)
astbuf2->str = *$1;
delete $1;
ast_stack.back()->children.push_back(astbuf2);
} '(' cell_port_list ')';
prim_list:
single_prim |
prim_list ',' single_prim;
single_prim:
single_cell |
/* no name */ {
astbuf2 = astbuf1->clone();
ast_stack.back()->children.push_back(astbuf2);
} '(' cell_port_list ')';
cell_parameter_list_opt:
'#' '(' cell_parameter_list ')' | /* empty */;
cell_parameter_list:
/* empty */ | cell_parameter |
cell_parameter ',' cell_parameter_list;
cell_parameter:
expr {
AstNode *node = new AstNode(AST_PARASET);
astbuf1->children.push_back(node);
node->children.push_back($1);
} |
'.' TOK_ID '(' expr ')' {
AstNode *node = new AstNode(AST_PARASET);
node->str = *$2;
astbuf1->children.push_back(node);
node->children.push_back($4);
delete $2;
};
cell_port_list:
/* empty */ | cell_port |
cell_port ',' cell_port_list |
/* empty */ ',' {
AstNode *node = new AstNode(AST_ARGUMENT);
astbuf2->children.push_back(node);
} cell_port_list;
cell_port:
expr {
AstNode *node = new AstNode(AST_ARGUMENT);
astbuf2->children.push_back(node);
node->children.push_back($1);
} |
'.' TOK_ID '(' expr ')' {
AstNode *node = new AstNode(AST_ARGUMENT);
node->str = *$2;
astbuf2->children.push_back(node);
node->children.push_back($4);
delete $2;
} |
'.' TOK_ID '(' ')' {
AstNode *node = new AstNode(AST_ARGUMENT);
node->str = *$2;
astbuf2->children.push_back(node);
delete $2;
};
always_stmt:
attr TOK_ALWAYS {
AstNode *node = new AstNode(AST_ALWAYS);
append_attr(node, $1);
ast_stack.back()->children.push_back(node);
ast_stack.push_back(node);
} always_cond {
AstNode *block = new AstNode(AST_BLOCK);
ast_stack.back()->children.push_back(block);
ast_stack.push_back(block);
} behavioral_stmt {
ast_stack.pop_back();
ast_stack.pop_back();
} |
attr TOK_INITIAL {
AstNode *node = new AstNode(AST_INITIAL);
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append_attr(node, $1);
ast_stack.back()->children.push_back(node);
ast_stack.push_back(node);
AstNode *block = new AstNode(AST_BLOCK);
ast_stack.back()->children.push_back(block);
ast_stack.push_back(block);
} behavioral_stmt {
ast_stack.pop_back();
ast_stack.pop_back();
};
always_cond:
'@' '(' always_events ')' |
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'@' '(' '*' ')' |
'@' ATTR_BEGIN ')' |
'@' '(' ATTR_END |
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'@' '*' |
/* empty */;
always_events:
always_event |
always_events TOK_OR always_event |
always_events ',' always_event;
always_event:
TOK_POSEDGE expr {
AstNode *node = new AstNode(AST_POSEDGE);
ast_stack.back()->children.push_back(node);
node->children.push_back($2);
} |
TOK_NEGEDGE expr {
AstNode *node = new AstNode(AST_NEGEDGE);
ast_stack.back()->children.push_back(node);
node->children.push_back($2);
} |
expr {
AstNode *node = new AstNode(AST_EDGE);
ast_stack.back()->children.push_back(node);
node->children.push_back($1);
};
opt_label:
':' TOK_ID {
$$ = $2;
} |
/* empty */ {
$$ = NULL;
};
simple_behavioral_stmt:
lvalue '=' expr {
AstNode *node = new AstNode(AST_ASSIGN_EQ, $1, $3);
ast_stack.back()->children.push_back(node);
} |
lvalue OP_LE expr {
AstNode *node = new AstNode(AST_ASSIGN_LE, $1, $3);
ast_stack.back()->children.push_back(node);
};
// this production creates the obligatory if-else shift/reduce conflict
behavioral_stmt:
defattr |
simple_behavioral_stmt ';' |
hierarchical_id attr {
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AstNode *node = new AstNode(AST_TCALL);
node->str = *$1;
delete $1;
ast_stack.back()->children.push_back(node);
ast_stack.push_back(node);
append_attr(node, $2);
} opt_arg_list ';'{
ast_stack.pop_back();
} |
attr TOK_BEGIN opt_label {
AstNode *node = new AstNode(AST_BLOCK);
ast_stack.back()->children.push_back(node);
ast_stack.push_back(node);
append_attr(node, $1);
} behavioral_stmt_list TOK_END opt_label {
if ($3 != NULL)
delete $3;
if ($7 != NULL)
delete $7;
ast_stack.pop_back();
} |
attr TOK_FOR '(' {
AstNode *node = new AstNode(AST_FOR);
ast_stack.back()->children.push_back(node);
ast_stack.push_back(node);
append_attr(node, $1);
} simple_behavioral_stmt ';' expr {
ast_stack.back()->children.push_back($7);
} ';' simple_behavioral_stmt ')' {
AstNode *block = new AstNode(AST_BLOCK);
ast_stack.back()->children.push_back(block);
ast_stack.push_back(block);
} behavioral_stmt {
ast_stack.pop_back();
ast_stack.pop_back();
} |
attr TOK_IF '(' expr ')' {
AstNode *node = new AstNode(AST_CASE);
AstNode *block = new AstNode(AST_BLOCK);
AstNode *cond = new AstNode(AST_COND, AstNode::mkconst_int(1, false, 1), block);
ast_stack.back()->children.push_back(node);
node->children.push_back(new AstNode(AST_REDUCE_BOOL, $4));
node->children.push_back(cond);
ast_stack.push_back(node);
ast_stack.push_back(block);
append_attr(node, $1);
} behavioral_stmt optional_else {
ast_stack.pop_back();
ast_stack.pop_back();
} |
attr case_type '(' expr ')' {
AstNode *node = new AstNode(AST_CASE, $4);
ast_stack.back()->children.push_back(node);
ast_stack.push_back(node);
append_attr(node, $1);
} opt_synopsys_attr case_body TOK_ENDCASE {
case_type_stack.pop_back();
ast_stack.pop_back();
};
case_type:
TOK_CASE {
case_type_stack.push_back(0);
} |
TOK_CASEX {
case_type_stack.push_back('x');
} |
TOK_CASEZ {
case_type_stack.push_back('z');
};
opt_synopsys_attr:
opt_synopsys_attr TOK_SYNOPSYS_FULL_CASE {
if (ast_stack.back()->attributes.count("\\full_case") == 0)
ast_stack.back()->attributes["\\full_case"] = AstNode::mkconst_int(1, false);
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} |
opt_synopsys_attr TOK_SYNOPSYS_PARALLEL_CASE {
if (ast_stack.back()->attributes.count("\\parallel_case") == 0)
ast_stack.back()->attributes["\\parallel_case"] = AstNode::mkconst_int(1, false);
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} |
/* empty */;
behavioral_stmt_opt:
behavioral_stmt |
';' ;
behavioral_stmt_list:
behavioral_stmt_list behavioral_stmt |
/* empty */;
optional_else:
TOK_ELSE {
AstNode *block = new AstNode(AST_BLOCK);
AstNode *cond = new AstNode(AST_COND, new AstNode(AST_DEFAULT), block);
ast_stack.pop_back();
ast_stack.back()->children.push_back(cond);
ast_stack.push_back(block);
} behavioral_stmt |
/* empty */;
case_body:
case_body case_item |
/* empty */;
case_item:
{
AstNode *node = new AstNode(AST_COND);
ast_stack.back()->children.push_back(node);
ast_stack.push_back(node);
} case_select {
AstNode *block = new AstNode(AST_BLOCK);
ast_stack.back()->children.push_back(block);
ast_stack.push_back(block);
case_type_stack.push_back(0);
} behavioral_stmt_opt {
case_type_stack.pop_back();
ast_stack.pop_back();
ast_stack.pop_back();
};
case_select:
case_expr_list ':' |
TOK_DEFAULT;
case_expr_list:
TOK_DEFAULT {
ast_stack.back()->children.push_back(new AstNode(AST_DEFAULT));
} |
expr {
ast_stack.back()->children.push_back($1);
} |
case_expr_list ',' expr {
ast_stack.back()->children.push_back($3);
};
rvalue:
hierarchical_id '[' expr ']' '.' rvalue {
$$ = new AstNode(AST_PREFIX, $3, $6);
$$->str = *$1;
delete $1;
} |
hierarchical_id range {
$$ = new AstNode(AST_IDENTIFIER, $2);
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$$->str = *$1;
delete $1;
} |
hierarchical_id non_opt_range non_opt_range {
$$ = new AstNode(AST_IDENTIFIER, $2, $3);
$$->str = *$1;
delete $1;
};
lvalue:
rvalue {
$$ = $1;
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} |
'{' lvalue_concat_list '}' {
$$ = $2;
};
lvalue_concat_list:
expr {
$$ = new AstNode(AST_CONCAT);
$$->children.push_back($1);
} |
expr ',' lvalue_concat_list {
$$ = $3;
$$->children.push_back($1);
};
opt_arg_list:
'(' arg_list optional_comma ')' |
/* empty */;
arg_list:
arg_list2 |
/* empty */;
arg_list2:
single_arg |
arg_list ',' single_arg;
single_arg:
expr {
ast_stack.back()->children.push_back($1);
};
module_gen_body:
module_gen_body gen_stmt |
module_gen_body module_body_stmt |
/* empty */;
// this production creates the obligatory if-else shift/reduce conflict
gen_stmt:
TOK_FOR '(' {
AstNode *node = new AstNode(AST_GENFOR);
ast_stack.back()->children.push_back(node);
ast_stack.push_back(node);
} simple_behavioral_stmt ';' expr {
ast_stack.back()->children.push_back($6);
} ';' simple_behavioral_stmt ')' gen_stmt {
ast_stack.pop_back();
} |
TOK_IF '(' expr ')' {
AstNode *node = new AstNode(AST_GENIF);
ast_stack.back()->children.push_back(node);
ast_stack.push_back(node);
ast_stack.back()->children.push_back($3);
} gen_stmt opt_gen_else {
ast_stack.pop_back();
} |
TOK_BEGIN opt_label {
AstNode *node = new AstNode(AST_GENBLOCK);
node->str = $2 ? *$2 : std::string();
ast_stack.back()->children.push_back(node);
ast_stack.push_back(node);
} module_gen_body TOK_END opt_label {
if ($2 != NULL)
delete $2;
if ($6 != NULL)
delete $6;
ast_stack.pop_back();
};
opt_gen_else:
TOK_ELSE gen_stmt | /* empty */;
expr:
basic_expr {
$$ = $1;
} |
basic_expr '?' attr expr ':' expr {
$$ = new AstNode(AST_TERNARY);
$$->children.push_back($1);
$$->children.push_back($4);
$$->children.push_back($6);
append_attr($$, $3);
};
basic_expr:
rvalue {
$$ = $1;
} |
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TOK_CONST {
$$ = const2ast(*$1, case_type_stack.size() == 0 ? 0 : case_type_stack.back());
if ($$ == NULL)
log_error("Value conversion failed: `%s'\n", $1->c_str());
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delete $1;
} |
TOK_STRING {
std::string str = *$1;
std::vector<RTLIL::State> data;
data.reserve(str.size() * 8);
for (size_t i = 0; i < str.size(); i++) {
unsigned char ch = str[str.size() - i - 1];
for (int j = 0; j < 8; j++) {
data.push_back((ch & 1) ? RTLIL::S1 : RTLIL::S0);
ch = ch >> 1;
}
}
$$ = AstNode::mkconst_bits(data, false);
$$->str = str;
delete $1;
} |
hierarchical_id attr {
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AstNode *node = new AstNode(AST_FCALL);
node->str = *$1;
delete $1;
ast_stack.push_back(node);
append_attr(node, $2);
} '(' arg_list optional_comma ')' {
$$ = ast_stack.back();
ast_stack.pop_back();
} |
TOK_TO_SIGNED attr '(' expr ')' {
$$ = new AstNode(AST_TO_SIGNED, $4);
append_attr($$, $2);
} |
TOK_TO_UNSIGNED attr '(' expr ')' {
$$ = new AstNode(AST_TO_UNSIGNED, $4);
append_attr($$, $2);
} |
'(' expr ')' {
$$ = $2;
} |
'{' concat_list '}' {
$$ = $2;
} |
'{' expr '{' expr '}' '}' {
$$ = new AstNode(AST_REPLICATE, $2, $4);
} |
'~' attr basic_expr %prec UNARY_OPS {
$$ = new AstNode(AST_BIT_NOT, $3);
append_attr($$, $2);
} |
basic_expr '&' attr basic_expr {
$$ = new AstNode(AST_BIT_AND, $1, $4);
append_attr($$, $3);
} |
basic_expr '|' attr basic_expr {
$$ = new AstNode(AST_BIT_OR, $1, $4);
append_attr($$, $3);
} |
basic_expr '^' attr basic_expr {
$$ = new AstNode(AST_BIT_XOR, $1, $4);
append_attr($$, $3);
} |
basic_expr OP_XNOR attr basic_expr {
$$ = new AstNode(AST_BIT_XNOR, $1, $4);
append_attr($$, $3);
} |
'&' attr basic_expr %prec UNARY_OPS {
$$ = new AstNode(AST_REDUCE_AND, $3);
append_attr($$, $2);
} |
OP_NAND attr basic_expr %prec UNARY_OPS {
$$ = new AstNode(AST_REDUCE_AND, $3);
append_attr($$, $2);
$$ = new AstNode(AST_LOGIC_NOT, $$);
} |
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'|' attr basic_expr %prec UNARY_OPS {
$$ = new AstNode(AST_REDUCE_OR, $3);
append_attr($$, $2);
} |
OP_NOR attr basic_expr %prec UNARY_OPS {
$$ = new AstNode(AST_REDUCE_OR, $3);
append_attr($$, $2);
$$ = new AstNode(AST_LOGIC_NOT, $$);
} |
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'^' attr basic_expr %prec UNARY_OPS {
$$ = new AstNode(AST_REDUCE_XOR, $3);
append_attr($$, $2);
} |
OP_XNOR attr basic_expr %prec UNARY_OPS {
$$ = new AstNode(AST_REDUCE_XNOR, $3);
append_attr($$, $2);
} |
basic_expr OP_SHL attr basic_expr {
$$ = new AstNode(AST_SHIFT_LEFT, $1, $4);
append_attr($$, $3);
} |
basic_expr OP_SHR attr basic_expr {
$$ = new AstNode(AST_SHIFT_RIGHT, $1, $4);
append_attr($$, $3);
} |
basic_expr OP_SSHL attr basic_expr {
$$ = new AstNode(AST_SHIFT_SLEFT, $1, $4);
append_attr($$, $3);
} |
basic_expr OP_SSHR attr basic_expr {
$$ = new AstNode(AST_SHIFT_SRIGHT, $1, $4);
append_attr($$, $3);
} |
basic_expr '<' attr basic_expr {
$$ = new AstNode(AST_LT, $1, $4);
append_attr($$, $3);
} |
basic_expr OP_LE attr basic_expr {
$$ = new AstNode(AST_LE, $1, $4);
append_attr($$, $3);
} |
basic_expr OP_EQ attr basic_expr {
$$ = new AstNode(AST_EQ, $1, $4);
append_attr($$, $3);
} |
basic_expr OP_NE attr basic_expr {
$$ = new AstNode(AST_NE, $1, $4);
append_attr($$, $3);
} |
basic_expr OP_GE attr basic_expr {
$$ = new AstNode(AST_GE, $1, $4);
append_attr($$, $3);
} |
basic_expr '>' attr basic_expr {
$$ = new AstNode(AST_GT, $1, $4);
append_attr($$, $3);
} |
basic_expr '+' attr basic_expr {
$$ = new AstNode(AST_ADD, $1, $4);
append_attr($$, $3);
} |
basic_expr '-' attr basic_expr {
$$ = new AstNode(AST_SUB, $1, $4);
append_attr($$, $3);
} |
basic_expr '*' attr basic_expr {
$$ = new AstNode(AST_MUL, $1, $4);
append_attr($$, $3);
} |
basic_expr '/' attr basic_expr {
$$ = new AstNode(AST_DIV, $1, $4);
append_attr($$, $3);
} |
basic_expr '%' attr basic_expr {
$$ = new AstNode(AST_MOD, $1, $4);
append_attr($$, $3);
} |
basic_expr OP_POW attr basic_expr {
$$ = new AstNode(AST_POW, $1, $4);
append_attr($$, $3);
} |
'+' attr basic_expr %prec UNARY_OPS {
$$ = new AstNode(AST_POS, $3);
append_attr($$, $2);
} |
'-' attr basic_expr %prec UNARY_OPS {
$$ = new AstNode(AST_NEG, $3);
append_attr($$, $2);
} |
basic_expr OP_LAND attr basic_expr {
$$ = new AstNode(AST_LOGIC_AND, $1, $4);
append_attr($$, $3);
} |
basic_expr OP_LOR attr basic_expr {
$$ = new AstNode(AST_LOGIC_OR, $1, $4);
append_attr($$, $3);
} |
'!' attr basic_expr %prec UNARY_OPS {
$$ = new AstNode(AST_LOGIC_NOT, $3);
append_attr($$, $2);
};
concat_list:
expr {
$$ = new AstNode(AST_CONCAT, $1);
} |
expr ',' concat_list {
$$ = $3;
$$->children.push_back($1);
};