yosys/frontends/ast/simplify.cc

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2013-01-05 04:13:26 -06:00
/*
* 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.
*
* ---
*
* This is the AST frontend library.
*
* The AST frontend library is not a frontend on it's own but provides a
* generic abstract syntax tree (AST) abstraction for HDL code and can be
* used by HDL frontends. See "ast.h" for an overview of the API and the
* Verilog frontend for an usage example.
*
*/
#include "kernel/log.h"
#include "libs/sha1/sha1.h"
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#include "ast.h"
#include <sstream>
#include <stdarg.h>
#include <assert.h>
using namespace AST;
using namespace AST_INTERNAL;
// convert the AST into a simpler AST that has all parameters subsitited by their
// values, unrolled for-loops, expanded generate blocks, etc. when this function
// is done with an AST it can be converted into RTLIL using genRTLIL().
//
// this function also does all name resolving and sets the id2ast member of all
// nodes that link to a different node using names and lexical scoping.
bool AstNode::simplify(bool const_fold, bool at_zero, bool in_lvalue, int stage, int width_hint, bool sign_hint)
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{
AstNode *newNode = NULL;
bool did_something = false;
if (stage == 0)
{
assert(type == AST_MODULE);
while (simplify(const_fold, at_zero, in_lvalue, 1, width_hint, sign_hint)) { }
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if (!flag_nomem2reg && !get_bool_attribute("\\nomem2reg"))
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{
std::map<AstNode*, std::set<std::string>> mem2reg_places;
std::map<AstNode*, uint32_t> mem2reg_candidates, dummy_proc_flags;
uint32_t flags = flag_mem2reg ? AstNode::MEM2REG_FL_ALL : 0;
mem2reg_as_needed_pass1(mem2reg_places, mem2reg_candidates, dummy_proc_flags, flags);
std::set<AstNode*> mem2reg_set;
for (auto &it : mem2reg_candidates)
{
AstNode *mem = it.first;
uint32_t memflags = it.second;
assert((memflags & ~0x00ffff00) == 0);
if (mem->get_bool_attribute("\\nomem2reg"))
continue;
if (memflags & AstNode::MEM2REG_FL_FORCED)
goto silent_activate;
if (memflags & AstNode::MEM2REG_FL_EQ2)
goto verbose_activate;
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if (memflags & AstNode::MEM2REG_FL_SET_ASYNC)
goto verbose_activate;
if ((memflags & AstNode::MEM2REG_FL_SET_INIT) && (memflags & AstNode::MEM2REG_FL_SET_ELSE))
goto verbose_activate;
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// log("Note: Not replacing memory %s with list of registers (flags=0x%08lx).\n", mem->str.c_str(), long(memflags));
continue;
verbose_activate:
if (mem2reg_set.count(mem) == 0) {
log("Warning: Replacing memory %s with list of registers.", mem->str.c_str());
bool first_element = true;
for (auto &place : mem2reg_places[it.first]) {
log("%s%s", first_element ? " See " : ", ", place.c_str());
first_element = false;
}
log("\n");
}
silent_activate:
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// log("Note: Replacing memory %s with list of registers (flags=0x%08lx).\n", mem->str.c_str(), long(memflags));
mem2reg_set.insert(mem);
}
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for (auto node : mem2reg_set)
{
int mem_width, mem_size, addr_bits;
node->meminfo(mem_width, mem_size, addr_bits);
for (int i = 0; i < mem_size; i++) {
AstNode *reg = new AstNode(AST_WIRE, new AstNode(AST_RANGE,
mkconst_int(mem_width-1, true), mkconst_int(0, true)));
reg->str = stringf("%s[%d]", node->str.c_str(), i);
reg->is_reg = true;
reg->is_signed = node->is_signed;
children.push_back(reg);
while (reg->simplify(true, false, false, 1, -1, false)) { }
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}
}
mem2reg_as_needed_pass2(mem2reg_set, this, NULL);
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for (size_t i = 0; i < children.size(); i++) {
if (mem2reg_set.count(children[i]) > 0) {
delete children[i];
children.erase(children.begin() + (i--));
}
}
}
while (simplify(const_fold, at_zero, in_lvalue, 2, width_hint, sign_hint)) { }
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return false;
}
current_filename = filename;
set_line_num(linenum);
// we do not look inside a task or function
// (but as soon as a task of function is instanciated we process the generated AST as usual)
if (type == AST_FUNCTION || type == AST_TASK)
return false;
// deactivate all calls non-synthesis system taks
if ((type == AST_FCALL || type == AST_TCALL) && (str == "$display" || str == "$stop" || str == "$finish")) {
delete_children();
str = std::string();
}
// activate const folding if this is anything that must be evaluated statically (ranges, parameters, attributes, etc.)
if (type == AST_WIRE || type == AST_PARAMETER || type == AST_LOCALPARAM || type == AST_DEFPARAM || type == AST_PARASET || type == AST_RANGE || type == AST_PREFIX)
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const_fold = true;
if (type == AST_IDENTIFIER && current_scope.count(str) > 0 && (current_scope[str]->type == AST_PARAMETER || current_scope[str]->type == AST_LOCALPARAM))
const_fold = true;
std::map<std::string, AstNode*> backup_scope;
// create name resolution entries for all objects with names
// also merge multiple declarations for the same wire (e.g. "output foobar; reg foobar;")
if (type == AST_MODULE) {
current_scope.clear();
std::map<std::string, AstNode*> this_wire_scope;
for (size_t i = 0; i < children.size(); i++) {
AstNode *node = children[i];
if (node->type == AST_WIRE) {
if (this_wire_scope.count(node->str) > 0) {
AstNode *first_node = this_wire_scope[node->str];
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if (!node->is_input && !node->is_output && node->is_reg && node->children.size() == 0)
goto wires_are_compatible;
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if (first_node->children.size() != node->children.size())
goto wires_are_incompatible;
for (size_t j = 0; j < node->children.size(); j++) {
AstNode *n1 = first_node->children[j], *n2 = node->children[j];
if (n1->type == AST_RANGE && n2->type == AST_RANGE && n1->range_valid && n2->range_valid) {
if (n1->range_left != n2->range_left)
goto wires_are_incompatible;
if (n1->range_right != n2->range_right)
goto wires_are_incompatible;
} else if (*n1 != *n2)
goto wires_are_incompatible;
}
if (first_node->range_left != node->range_left)
goto wires_are_incompatible;
if (first_node->range_right != node->range_right)
goto wires_are_incompatible;
if (first_node->port_id == 0 && (node->is_input || node->is_output))
goto wires_are_incompatible;
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wires_are_compatible:
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if (node->is_input)
first_node->is_input = true;
if (node->is_output)
first_node->is_output = true;
if (node->is_reg)
first_node->is_reg = true;
if (node->is_signed)
first_node->is_signed = true;
for (auto &it : node->attributes) {
if (first_node->attributes.count(it.first) > 0)
delete first_node->attributes[it.first];
first_node->attributes[it.first] = it.second->clone();
}
children.erase(children.begin()+(i--));
did_something = true;
delete node;
continue;
}
this_wire_scope[node->str] = node;
}
wires_are_incompatible:
if (node->type == AST_PARAMETER || node->type == AST_LOCALPARAM || node->type == AST_WIRE || node->type == AST_AUTOWIRE || node->type == AST_GENVAR ||
node->type == AST_MEMORY || node->type == AST_FUNCTION || node->type == AST_TASK || node->type == AST_CELL) {
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backup_scope[node->str] = current_scope[node->str];
current_scope[node->str] = node;
}
}
for (size_t i = 0; i < children.size(); i++) {
AstNode *node = children[i];
if (node->type == AST_PARAMETER || node->type == AST_LOCALPARAM || node->type == AST_WIRE || node->type == AST_AUTOWIRE)
while (node->simplify(true, false, false, 1, -1, false)) { }
}
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}
auto backup_current_block = current_block;
auto backup_current_block_child = current_block_child;
auto backup_current_top_block = current_top_block;
int backup_width_hint = width_hint;
bool backup_sign_hint = sign_hint;
bool detect_width_simple = false;
bool child_0_is_self_determined = false;
bool child_1_is_self_determined = false;
bool children_are_self_determined = false;
bool reset_width_after_children = false;
switch (type)
{
case AST_ASSIGN_EQ:
case AST_ASSIGN_LE:
case AST_ASSIGN:
while (!children[0]->basic_prep && children[0]->simplify(false, false, true, stage, -1, false) == true) { }
while (!children[1]->basic_prep && children[1]->simplify(false, false, false, stage, -1, false) == true) { }
children[0]->detectSignWidth(backup_width_hint, backup_sign_hint);
children[1]->detectSignWidth(width_hint, sign_hint);
width_hint = std::max(width_hint, backup_width_hint);
child_0_is_self_determined = true;
break;
case AST_PARAMETER:
case AST_LOCALPARAM:
while (!children[0]->basic_prep && children[0]->simplify(false, false, false, stage, -1, false) == true) { }
children[0]->detectSignWidth(width_hint, sign_hint);
if (children.size() > 1) {
assert(children[1]->type == AST_RANGE);
while (!children[1]->basic_prep && children[1]->simplify(false, false, false, stage, -1, false) == true) { }
if (!children[1]->range_valid)
log_error("Non-constant width range on parameter decl at %s:%d.\n", filename.c_str(), linenum);
width_hint = std::max(width_hint, children[1]->range_left - children[1]->range_right + 1);
}
break;
case AST_TO_BITS:
case AST_TO_SIGNED:
case AST_TO_UNSIGNED:
case AST_CONCAT:
case AST_REPLICATE:
case AST_REDUCE_AND:
case AST_REDUCE_OR:
case AST_REDUCE_XOR:
case AST_REDUCE_XNOR:
case AST_REDUCE_BOOL:
detect_width_simple = true;
children_are_self_determined = true;
break;
case AST_NEG:
case AST_BIT_NOT:
case AST_POS:
case AST_BIT_AND:
case AST_BIT_OR:
case AST_BIT_XOR:
case AST_BIT_XNOR:
case AST_ADD:
case AST_SUB:
case AST_MUL:
case AST_DIV:
case AST_MOD:
detect_width_simple = true;
break;
case AST_SHIFT_LEFT:
case AST_SHIFT_RIGHT:
case AST_SHIFT_SLEFT:
case AST_SHIFT_SRIGHT:
case AST_POW:
detect_width_simple = true;
child_1_is_self_determined = true;
break;
case AST_LT:
case AST_LE:
case AST_EQ:
case AST_NE:
case AST_EQX:
case AST_NEX:
case AST_GE:
case AST_GT:
width_hint = -1;
sign_hint = true;
for (auto child : children) {
while (!child->basic_prep && child->simplify(false, false, in_lvalue, stage, -1, false) == true) { }
child->detectSignWidthWorker(width_hint, sign_hint);
}
reset_width_after_children = true;
break;
case AST_LOGIC_AND:
case AST_LOGIC_OR:
case AST_LOGIC_NOT:
detect_width_simple = true;
children_are_self_determined = true;
break;
case AST_TERNARY:
detect_width_simple = true;
child_0_is_self_determined = true;
break;
case AST_MEMRD:
detect_width_simple = true;
children_are_self_determined = true;
break;
default:
width_hint = -1;
sign_hint = false;
}
if (detect_width_simple && width_hint < 0) {
for (auto child : children)
while (!child->basic_prep && child->simplify(false, false, in_lvalue, stage, -1, false) == true) { }
if (type == AST_REPLICATE)
while (children[0]->simplify(true, false, in_lvalue, stage, -1, false) == true) { }
detectSignWidth(width_hint, sign_hint);
}
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// simplify all children first
// (iterate by index as e.g. auto wires can add new children in the process)
for (size_t i = 0; i < children.size(); i++) {
bool did_something_here = true;
if ((type == AST_GENFOR || type == AST_FOR) && i >= 3)
break;
if ((type == AST_GENIF || type == AST_GENCASE) && i >= 1)
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break;
if (type == AST_GENBLOCK)
break;
if (type == AST_BLOCK && !str.empty())
break;
if (type == AST_PREFIX && i >= 1)
break;
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while (did_something_here && i < children.size()) {
bool const_fold_here = const_fold, in_lvalue_here = in_lvalue;
int width_hint_here = width_hint;
bool sign_hint_here = sign_hint;
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if (i == 0 && type == AST_REPLICATE)
const_fold_here = true;
if (type == AST_PARAMETER || type == AST_LOCALPARAM)
const_fold_here = true;
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if (i == 0 && (type == AST_ASSIGN || type == AST_ASSIGN_EQ || type == AST_ASSIGN_LE))
in_lvalue_here = true;
if (type == AST_BLOCK) {
current_block = this;
current_block_child = children[i];
}
if ((type == AST_ALWAYS || type == AST_INITIAL) && children[i]->type == AST_BLOCK)
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current_top_block = children[i];
if (i == 0 && child_0_is_self_determined)
width_hint_here = -1, sign_hint_here = false;
if (i == 1 && child_1_is_self_determined)
width_hint_here = -1, sign_hint_here = false;
if (children_are_self_determined)
width_hint_here = -1, sign_hint_here = false;
did_something_here = children[i]->simplify(const_fold_here, at_zero, in_lvalue_here, stage, width_hint_here, sign_hint_here);
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if (did_something_here)
did_something = true;
}
}
for (auto &attr : attributes) {
while (attr.second->simplify(true, false, false, stage, -1, false)) { }
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}
if (reset_width_after_children) {
width_hint = backup_width_hint;
sign_hint = backup_sign_hint;
if (width_hint < 0)
detectSignWidth(width_hint, sign_hint);
}
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current_block = backup_current_block;
current_block_child = backup_current_block_child;
current_top_block = backup_current_top_block;
for (auto it = backup_scope.begin(); it != backup_scope.end(); it++) {
if (it->second == NULL)
current_scope.erase(it->first);
else
current_scope[it->first] = it->second;
}
current_filename = filename;
set_line_num(linenum);
if (type == AST_MODULE)
current_scope.clear();
// convert defparam nodes to cell parameters
if (type == AST_DEFPARAM && !str.empty()) {
size_t pos = str.rfind('.');
if (pos == std::string::npos)
log_error("Defparam `%s' does not contain a dot (module/parameter seperator) at %s:%d!\n",
RTLIL::id2cstr(str.c_str()), filename.c_str(), linenum);
std::string modname = str.substr(0, pos), paraname = "\\" + str.substr(pos+1);
if (current_scope.count(modname) == 0 || current_scope.at(modname)->type != AST_CELL)
log_error("Can't find cell for defparam `%s . %s` at %s:%d!\n", RTLIL::id2cstr(modname), RTLIL::id2cstr(paraname), filename.c_str(), linenum);
AstNode *cell = current_scope.at(modname), *paraset = clone();
cell->children.insert(cell->children.begin() + 1, paraset);
paraset->type = AST_PARASET;
paraset->str = paraname;
str.clear();
}
// resolve constant prefixes
if (type == AST_PREFIX) {
if (children[0]->type != AST_CONSTANT) {
// dumpAst(NULL, "> ");
log_error("Index in generate block prefix syntax at %s:%d is not constant!\n", filename.c_str(), linenum);
}
assert(children[1]->type == AST_IDENTIFIER);
newNode = children[1]->clone();
const char *second_part = children[1]->str.c_str();
if (second_part[0] == '\\')
second_part++;
newNode->str = stringf("%s[%d].%s", str.c_str(), children[0]->integer, second_part);
goto apply_newNode;
}
// evaluate TO_BITS nodes
if (type == AST_TO_BITS) {
if (children[0]->type != AST_CONSTANT)
log_error("Left operand of to_bits expression is not constant at %s:%d!\n", filename.c_str(), linenum);
if (children[1]->type != AST_CONSTANT)
log_error("Right operand of to_bits expression is not constant at %s:%d!\n", filename.c_str(), linenum);
RTLIL::Const new_value = children[1]->bitsAsConst(children[0]->bitsAsConst().as_int(), children[1]->is_signed);
newNode = mkconst_bits(new_value.bits, children[1]->is_signed);
goto apply_newNode;
}
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// annotate constant ranges
if (type == AST_RANGE) {
bool old_range_valid = range_valid;
range_valid = false;
range_left = -1;
range_right = 0;
assert(children.size() >= 1);
if (children[0]->type == AST_CONSTANT) {
range_valid = true;
range_left = children[0]->integer;
if (children.size() == 1)
range_right = range_left;
}
if (children.size() >= 2) {
if (children[1]->type == AST_CONSTANT)
range_right = children[1]->integer;
else
range_valid = false;
}
if (old_range_valid != range_valid)
did_something = true;
if (range_valid && range_left >= 0 && range_right > range_left) {
int tmp = range_right;
range_right = range_left;
range_left = tmp;
}
}
// annotate wires with their ranges
if (type == AST_WIRE) {
if (children.size() > 0) {
if (children[0]->range_valid) {
if (!range_valid)
did_something = true;
range_valid = true;
range_left = children[0]->range_left;
range_right = children[0]->range_right;
}
} else {
if (!range_valid)
did_something = true;
range_valid = true;
range_left = 0;
range_right = 0;
}
}
// trim/extend parameters
if ((type == AST_PARAMETER || type == AST_LOCALPARAM) && children[0]->type == AST_CONSTANT && children.size() > 1) {
if (!children[1]->range_valid)
log_error("Non-constant width range on parameter decl at %s:%d.\n", filename.c_str(), linenum);
int width = children[1]->range_left - children[1]->range_right + 1;
if (width != int(children[0]->bits.size())) {
RTLIL::SigSpec sig(children[0]->bits);
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sig.extend_u0(width, children[0]->is_signed);
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AstNode *old_child_0 = children[0];
children[0] = mkconst_bits(sig.as_const().bits, children[0]->is_signed);
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delete old_child_0;
}
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children[0]->is_signed = is_signed;
}
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// annotate identifiers using scope resolution and create auto-wires as needed
if (type == AST_IDENTIFIER) {
if (current_scope.count(str) == 0) {
for (auto node : current_ast_mod->children) {
if ((node->type == AST_PARAMETER || node->type == AST_LOCALPARAM || node->type == AST_WIRE || node->type == AST_AUTOWIRE || node->type == AST_GENVAR ||
node->type == AST_MEMORY || node->type == AST_FUNCTION || node->type == AST_TASK) && str == node->str) {
current_scope[node->str] = node;
break;
}
}
}
if (current_scope.count(str) == 0) {
// log("Warning: Creating auto-wire `%s' in module `%s'.\n", str.c_str(), current_ast_mod->str.c_str());
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AstNode *auto_wire = new AstNode(AST_AUTOWIRE);
auto_wire->str = str;
current_ast_mod->children.push_back(auto_wire);
current_scope[str] = auto_wire;
did_something = true;
}
id2ast = current_scope[str];
}
// split memory access with bit select to individual statements
if (type == AST_IDENTIFIER && children.size() == 2 && children[0]->type == AST_RANGE && children[1]->type == AST_RANGE)
{
if (id2ast == NULL || id2ast->type != AST_MEMORY || children[0]->children.size() != 1 || in_lvalue)
log_error("Invalid bit-select on memory access at %s:%d!\n", filename.c_str(), linenum);
int mem_width, mem_size, addr_bits;
id2ast->meminfo(mem_width, mem_size, addr_bits);
std::stringstream sstr;
sstr << "$mem2bits$" << children[0]->str << "$" << filename << ":" << linenum << "$" << (RTLIL::autoidx++);
std::string wire_id = sstr.str();
AstNode *wire = new AstNode(AST_WIRE, new AstNode(AST_RANGE, mkconst_int(mem_width-1, true), mkconst_int(0, true)));
wire->str = wire_id;
if (current_block)
wire->attributes["\\nosync"] = AstNode::mkconst_int(1, false);
current_ast_mod->children.push_back(wire);
while (wire->simplify(true, false, false, 1, -1, false)) { }
AstNode *data = clone();
delete data->children[1];
data->children.pop_back();
AstNode *assign = new AstNode(AST_ASSIGN_EQ, new AstNode(AST_IDENTIFIER), data);
assign->children[0]->str = wire_id;
if (current_block)
{
size_t assign_idx = 0;
while (assign_idx < current_block->children.size() && current_block->children[assign_idx] != current_block_child)
assign_idx++;
log_assert(assign_idx < current_block->children.size());
current_block->children.insert(current_block->children.begin()+assign_idx, assign);
wire->is_reg = true;
}
else
{
AstNode *proc = new AstNode(AST_ALWAYS, new AstNode(AST_BLOCK));
proc->children[0]->children.push_back(assign);
current_ast_mod->children.push_back(proc);
}
newNode = new AstNode(AST_IDENTIFIER, children[1]->clone());
newNode->str = wire_id;
newNode->id2ast = wire;
goto apply_newNode;
}
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// unroll for loops and generate-for blocks
if ((type == AST_GENFOR || type == AST_FOR) && children.size() != 0)
{
AstNode *init_ast = children[0];
AstNode *while_ast = children[1];
AstNode *next_ast = children[2];
AstNode *body_ast = children[3];
while (body_ast->type == AST_GENBLOCK && body_ast->str.empty() &&
body_ast->children.size() == 1 && body_ast->children.at(0)->type == AST_GENBLOCK)
body_ast = body_ast->children.at(0);
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if (init_ast->type != AST_ASSIGN_EQ)
log_error("Unsupported 1st expression of generate for-loop at %s:%d!\n", filename.c_str(), linenum);
if (next_ast->type != AST_ASSIGN_EQ)
log_error("Unsupported 3rd expression of generate for-loop at %s:%d!\n", filename.c_str(), linenum);
if (type == AST_GENFOR) {
if (init_ast->children[0]->id2ast == NULL || init_ast->children[0]->id2ast->type != AST_GENVAR)
log_error("Left hand side of 1st expression of generate for-loop at %s:%d is not a gen var!\n", filename.c_str(), linenum);
if (next_ast->children[0]->id2ast == NULL || next_ast->children[0]->id2ast->type != AST_GENVAR)
log_error("Left hand side of 3rd expression of generate for-loop at %s:%d is not a gen var!\n", filename.c_str(), linenum);
} else {
if (init_ast->children[0]->id2ast == NULL || init_ast->children[0]->id2ast->type != AST_WIRE)
log_error("Left hand side of 1st expression of generate for-loop at %s:%d is not a register!\n", filename.c_str(), linenum);
if (next_ast->children[0]->id2ast == NULL || next_ast->children[0]->id2ast->type != AST_WIRE)
log_error("Left hand side of 3rd expression of generate for-loop at %s:%d is not a register!\n", filename.c_str(), linenum);
}
if (init_ast->children[0]->id2ast != next_ast->children[0]->id2ast)
log_error("Incompatible left-hand sides in 1st and 3rd expression of generate for-loop at %s:%d!\n", filename.c_str(), linenum);
// eval 1st expression
AstNode *varbuf = init_ast->children[1]->clone();
while (varbuf->simplify(true, false, false, stage, width_hint, sign_hint)) { }
2013-01-05 04:13:26 -06:00
if (varbuf->type != AST_CONSTANT)
log_error("Right hand side of 1st expression of generate for-loop at %s:%d is not constant!\n", filename.c_str(), linenum);
varbuf = new AstNode(AST_LOCALPARAM, varbuf);
varbuf->str = init_ast->children[0]->str;
AstNode *backup_scope_varbuf = current_scope[varbuf->str];
current_scope[varbuf->str] = varbuf;
size_t current_block_idx = 0;
if (type == AST_FOR) {
while (current_block_idx < current_block->children.size() &&
current_block->children[current_block_idx] != current_block_child)
current_block_idx++;
}
while (1)
{
// eval 2nd expression
AstNode *buf = while_ast->clone();
while (buf->simplify(true, false, false, stage, width_hint, sign_hint)) { }
2013-01-05 04:13:26 -06:00
if (buf->type != AST_CONSTANT)
log_error("2nd expression of generate for-loop at %s:%d is not constant!\n", filename.c_str(), linenum);
if (buf->integer == 0) {
delete buf;
break;
}
delete buf;
// expand body
int index = varbuf->children[0]->integer;
if (body_ast->type == AST_GENBLOCK)
buf = body_ast->clone();
else
buf = new AstNode(AST_GENBLOCK, body_ast->clone());
if (buf->str.empty()) {
std::stringstream sstr;
sstr << "$genblock$" << filename << ":" << linenum << "$" << (RTLIL::autoidx++);
buf->str = sstr.str();
}
std::map<std::string, std::string> name_map;
std::stringstream sstr;
sstr << buf->str << "[" << index << "].";
buf->expand_genblock(varbuf->str, sstr.str(), name_map);
if (type == AST_GENFOR) {
for (size_t i = 0; i < buf->children.size(); i++) {
buf->children[i]->simplify(false, false, false, stage, -1, false);
2013-01-05 04:13:26 -06:00
current_ast_mod->children.push_back(buf->children[i]);
}
2013-01-05 04:13:26 -06:00
} else {
for (size_t i = 0; i < buf->children.size(); i++)
current_block->children.insert(current_block->children.begin() + current_block_idx++, buf->children[i]);
}
buf->children.clear();
delete buf;
// eval 3rd expression
buf = next_ast->children[1]->clone();
while (buf->simplify(true, false, false, stage, width_hint, sign_hint)) { }
2013-01-05 04:13:26 -06:00
if (buf->type != AST_CONSTANT)
log_error("Right hand side of 3rd expression of generate for-loop at %s:%d is not constant!\n", filename.c_str(), linenum);
delete varbuf->children[0];
varbuf->children[0] = buf;
}
current_scope[varbuf->str] = backup_scope_varbuf;
delete varbuf;
delete_children();
did_something = true;
}
// transform block with name
if (type == AST_BLOCK && !str.empty())
{
std::map<std::string, std::string> name_map;
expand_genblock(std::string(), str + ".", name_map);
std::vector<AstNode*> new_children;
for (size_t i = 0; i < children.size(); i++)
if (children[i]->type == AST_WIRE) {
children[i]->simplify(false, false, false, stage, -1, false);
current_ast_mod->children.push_back(children[i]);
} else
new_children.push_back(children[i]);
children.swap(new_children);
did_something = true;
str.clear();
}
// simplify unconditional generate block
if (type == AST_GENBLOCK && children.size() != 0)
{
if (!str.empty()) {
std::map<std::string, std::string> name_map;
expand_genblock(std::string(), str + ".", name_map);
}
for (size_t i = 0; i < children.size(); i++) {
children[i]->simplify(false, false, false, stage, -1, false);
current_ast_mod->children.push_back(children[i]);
}
children.clear();
did_something = true;
}
2013-01-05 04:13:26 -06:00
// simplify generate-if blocks
if (type == AST_GENIF && children.size() != 0)
{
AstNode *buf = children[0]->clone();
while (buf->simplify(true, false, false, stage, width_hint, sign_hint)) { }
2013-01-05 04:13:26 -06:00
if (buf->type != AST_CONSTANT) {
// for (auto f : log_files)
// dumpAst(f, "verilog-ast> ");
2013-01-05 04:13:26 -06:00
log_error("Condition for generate if at %s:%d is not constant!\n", filename.c_str(), linenum);
}
if (buf->asBool() != 0) {
2013-01-05 04:13:26 -06:00
delete buf;
buf = children[1]->clone();
} else {
delete buf;
buf = children.size() > 2 ? children[2]->clone() : NULL;
}
if (buf)
{
if (buf->type != AST_GENBLOCK)
buf = new AstNode(AST_GENBLOCK, buf);
if (!buf->str.empty()) {
std::map<std::string, std::string> name_map;
buf->expand_genblock(std::string(), buf->str + ".", name_map);
2013-01-05 04:13:26 -06:00
}
for (size_t i = 0; i < buf->children.size(); i++) {
buf->children[i]->simplify(false, false, false, stage, -1, false);
2013-01-05 04:13:26 -06:00
current_ast_mod->children.push_back(buf->children[i]);
}
2013-01-05 04:13:26 -06:00
buf->children.clear();
delete buf;
}
delete_children();
did_something = true;
}
// simplify generate-case blocks
if (type == AST_GENCASE && children.size() != 0)
{
AstNode *buf = children[0]->clone();
while (buf->simplify(true, false, false, stage, width_hint, sign_hint)) { }
if (buf->type != AST_CONSTANT) {
// for (auto f : log_files)
// dumpAst(f, "verilog-ast> ");
log_error("Condition for generate case at %s:%d is not constant!\n", filename.c_str(), linenum);
}
bool ref_signed = buf->is_signed;
RTLIL::Const ref_value = buf->bitsAsConst();
delete buf;
AstNode *selected_case = NULL;
for (size_t i = 1; i < children.size(); i++)
{
log_assert(children.at(i)->type == AST_COND);
AstNode *this_genblock = NULL;
for (auto child : children.at(i)->children) {
log_assert(this_genblock == NULL);
if (child->type == AST_GENBLOCK)
this_genblock = child;
}
for (auto child : children.at(i)->children)
{
if (child->type == AST_DEFAULT) {
if (selected_case == NULL)
selected_case = this_genblock;
continue;
}
if (child->type == AST_GENBLOCK)
continue;
buf = child->clone();
while (buf->simplify(true, false, false, stage, width_hint, sign_hint)) { }
if (buf->type != AST_CONSTANT) {
// for (auto f : log_files)
// dumpAst(f, "verilog-ast> ");
log_error("Expression in generate case at %s:%d is not constant!\n", filename.c_str(), linenum);
}
if (RTLIL::const_eq(ref_value, buf->bitsAsConst(), ref_signed && buf->is_signed, ref_signed && buf->is_signed, 1).as_bool()) {
selected_case = this_genblock;
i = children.size();
break;
}
}
}
if (selected_case != NULL)
{
log_assert(selected_case->type == AST_GENBLOCK);
buf = selected_case->clone();
if (!buf->str.empty()) {
std::map<std::string, std::string> name_map;
buf->expand_genblock(std::string(), buf->str + ".", name_map);
}
for (size_t i = 0; i < buf->children.size(); i++) {
buf->children[i]->simplify(false, false, false, stage, -1, false);
current_ast_mod->children.push_back(buf->children[i]);
}
buf->children.clear();
delete buf;
}
delete_children();
did_something = true;
}
2013-01-05 04:13:26 -06:00
// replace primitives with assignmens
if (type == AST_PRIMITIVE)
{
if (children.size() < 2)
log_error("Insufficient number of arguments for primitive `%s' at %s:%d!\n",
str.c_str(), filename.c_str(), linenum);
std::vector<AstNode*> children_list;
for (auto child : children) {
assert(child->type == AST_ARGUMENT);
assert(child->children.size() == 1);
children_list.push_back(child->children[0]);
child->children.clear();
delete child;
}
children.clear();
if (str == "bufif0" || str == "bufif1" || str == "notif0" || str == "notif1")
{
if (children_list.size() != 3)
log_error("Invalid number of arguments for primitive `%s' at %s:%d!\n",
str.c_str(), filename.c_str(), linenum);
2013-01-05 04:13:26 -06:00
std::vector<RTLIL::State> z_const(1, RTLIL::State::Sz);
AstNode *mux_input = children_list.at(1);
if (str == "notif0" || str == "notif1") {
mux_input = new AstNode(AST_BIT_NOT, mux_input);
}
AstNode *node = new AstNode(AST_TERNARY, children_list.at(2));
if (str == "bufif0") {
node->children.push_back(AstNode::mkconst_bits(z_const, false));
node->children.push_back(mux_input);
} else {
node->children.push_back(mux_input);
node->children.push_back(AstNode::mkconst_bits(z_const, false));
}
str.clear();
type = AST_ASSIGN;
children.push_back(children_list.at(0));
children.push_back(node);
did_something = true;
}
else
{
AstNodeType op_type = AST_NONE;
bool invert_results = false;
if (str == "and")
op_type = AST_BIT_AND;
if (str == "nand")
op_type = AST_BIT_AND, invert_results = true;
if (str == "or")
op_type = AST_BIT_OR;
if (str == "nor")
op_type = AST_BIT_OR, invert_results = true;
if (str == "xor")
op_type = AST_BIT_XOR;
if (str == "xnor")
op_type = AST_BIT_XOR, invert_results = true;
if (str == "buf")
op_type = AST_POS;
if (str == "not")
op_type = AST_POS, invert_results = true;
assert(op_type != AST_NONE);
AstNode *node = children_list[1];
if (op_type != AST_POS)
for (size_t i = 2; i < children_list.size(); i++)
node = new AstNode(op_type, node, children_list[i]);
if (invert_results)
node = new AstNode(AST_BIT_NOT, node);
str.clear();
type = AST_ASSIGN;
children.push_back(children_list[0]);
children.push_back(node);
did_something = true;
}
2013-01-05 04:13:26 -06:00
}
// replace dynamic ranges in left-hand side expressions (e.g. "foo[bar] <= 1'b1;") with
// a big case block that selects the correct single-bit assignment.
if (type == AST_ASSIGN_EQ || type == AST_ASSIGN_LE) {
if (children[0]->type != AST_IDENTIFIER || children[0]->children.size() == 0)
goto skip_dynamic_range_lvalue_expansion;
if (children[0]->children[0]->range_valid || did_something)
goto skip_dynamic_range_lvalue_expansion;
if (children[0]->id2ast == NULL || children[0]->id2ast->type != AST_WIRE)
goto skip_dynamic_range_lvalue_expansion;
if (!children[0]->id2ast->range_valid)
goto skip_dynamic_range_lvalue_expansion;
int source_width = children[0]->id2ast->range_left - children[0]->id2ast->range_right + 1;
int result_width = 1;
AstNode *shift_expr = NULL;
AstNode *range = children[0]->children[0];
if (range->children.size() == 1) {
shift_expr = range->children[0]->clone();
} else {
shift_expr = range->children[1]->clone();
AstNode *left_at_zero_ast = range->children[0]->clone();
AstNode *right_at_zero_ast = range->children[1]->clone();
while (left_at_zero_ast->simplify(true, true, false, stage, -1, false)) { }
while (right_at_zero_ast->simplify(true, true, false, stage, -1, false)) { }
2013-01-05 04:13:26 -06:00
if (left_at_zero_ast->type != AST_CONSTANT || right_at_zero_ast->type != AST_CONSTANT)
log_error("Unsupported expression on dynamic range select on signal `%s' at %s:%d!\n",
str.c_str(), filename.c_str(), linenum);
result_width = left_at_zero_ast->integer - right_at_zero_ast->integer + 1;
}
did_something = true;
newNode = new AstNode(AST_CASE, shift_expr);
for (int i = 0; i <= source_width-result_width; i++) {
int start_bit = children[0]->id2ast->range_right + i;
AstNode *cond = new AstNode(AST_COND, mkconst_int(start_bit, true));
AstNode *lvalue = children[0]->clone();
lvalue->delete_children();
lvalue->children.push_back(new AstNode(AST_RANGE,
mkconst_int(start_bit+result_width-1, true), mkconst_int(start_bit, true)));
cond->children.push_back(new AstNode(AST_BLOCK, new AstNode(type, lvalue, children[1]->clone())));
newNode->children.push_back(cond);
}
goto apply_newNode;
}
skip_dynamic_range_lvalue_expansion:;
2014-01-19 07:03:40 -06:00
if (stage > 1 && type == AST_ASSERT && current_block != NULL)
{
std::stringstream sstr;
sstr << "$assert$" << filename << ":" << linenum << "$" << (RTLIL::autoidx++);
std::string id_check = sstr.str() + "_CHECK", id_en = sstr.str() + "_EN";
AstNode *wire_check = new AstNode(AST_WIRE);
wire_check->str = id_check;
current_ast_mod->children.push_back(wire_check);
current_scope[wire_check->str] = wire_check;
while (wire_check->simplify(true, false, false, 1, -1, false)) { }
AstNode *wire_en = new AstNode(AST_WIRE);
wire_en->str = id_en;
current_ast_mod->children.push_back(wire_en);
current_scope[wire_en->str] = wire_en;
while (wire_en->simplify(true, false, false, 1, -1, false)) { }
std::vector<RTLIL::State> x_bit;
x_bit.push_back(RTLIL::State::Sx);
AstNode *assign_check = new AstNode(AST_ASSIGN_LE, new AstNode(AST_IDENTIFIER), mkconst_bits(x_bit, false));
assign_check->children[0]->str = id_check;
AstNode *assign_en = new AstNode(AST_ASSIGN_LE, new AstNode(AST_IDENTIFIER), mkconst_int(0, false, 1));
assign_en->children[0]->str = id_en;
AstNode *default_signals = new AstNode(AST_BLOCK);
default_signals->children.push_back(assign_check);
default_signals->children.push_back(assign_en);
current_top_block->children.insert(current_top_block->children.begin(), default_signals);
assign_check = new AstNode(AST_ASSIGN_LE, new AstNode(AST_IDENTIFIER), new AstNode(AST_REDUCE_BOOL, children[0]->clone()));
assign_check->children[0]->str = id_check;
assign_en = new AstNode(AST_ASSIGN_LE, new AstNode(AST_IDENTIFIER), mkconst_int(1, false, 1));
assign_en->children[0]->str = id_en;
newNode = new AstNode(AST_BLOCK);
newNode->children.push_back(assign_check);
newNode->children.push_back(assign_en);
AstNode *assertnode = new AstNode(AST_ASSERT);
assertnode->children.push_back(new AstNode(AST_IDENTIFIER));
assertnode->children.push_back(new AstNode(AST_IDENTIFIER));
assertnode->children[0]->str = id_check;
assertnode->children[1]->str = id_en;
assertnode->attributes.swap(attributes);
current_ast_mod->children.push_back(assertnode);
goto apply_newNode;
}
if (stage > 1 && type == AST_ASSERT && children.size() == 1)
{
children[0] = new AstNode(AST_REDUCE_BOOL, children[0]->clone());
children.push_back(mkconst_int(1, false, 1));
did_something = true;
}
2013-01-05 04:13:26 -06:00
// found right-hand side identifier for memory -> replace with memory read port
if (stage > 1 && type == AST_IDENTIFIER && id2ast != NULL && id2ast->type == AST_MEMORY && !in_lvalue &&
children[0]->type == AST_RANGE && children[0]->children.size() == 1) {
newNode = new AstNode(AST_MEMRD, children[0]->children[0]->clone());
newNode->str = str;
newNode->id2ast = id2ast;
2013-01-05 04:13:26 -06:00
goto apply_newNode;
}
// assignment with memory in left-hand side expression -> replace with memory write port
if (stage > 1 && (type == AST_ASSIGN_EQ || type == AST_ASSIGN_LE) && children[0]->type == AST_IDENTIFIER &&
children[0]->children.size() == 1 && children[0]->id2ast && children[0]->id2ast->type == AST_MEMORY &&
children[0]->id2ast->children.size() >= 2 && children[0]->id2ast->children[0]->range_valid &&
children[0]->id2ast->children[1]->range_valid)
{
std::stringstream sstr;
sstr << "$memwr$" << children[0]->str << "$" << filename << ":" << linenum << "$" << (RTLIL::autoidx++);
std::string id_addr = sstr.str() + "_ADDR", id_data = sstr.str() + "_DATA", id_en = sstr.str() + "_EN";
if (type == AST_ASSIGN_EQ)
log("Warining: Blocking assignment to memory in line %s:%d is handled like a non-blocking assignment.\n",
filename.c_str(), linenum);
int mem_width, mem_size, addr_bits;
children[0]->id2ast->meminfo(mem_width, mem_size, addr_bits);
AstNode *wire_addr = new AstNode(AST_WIRE, new AstNode(AST_RANGE, mkconst_int(addr_bits-1, true), mkconst_int(0, true)));
wire_addr->str = id_addr;
current_ast_mod->children.push_back(wire_addr);
current_scope[wire_addr->str] = wire_addr;
while (wire_addr->simplify(true, false, false, 1, -1, false)) { }
2013-01-05 04:13:26 -06:00
AstNode *wire_data = new AstNode(AST_WIRE, new AstNode(AST_RANGE, mkconst_int(mem_width-1, true), mkconst_int(0, true)));
wire_data->str = id_data;
current_ast_mod->children.push_back(wire_data);
current_scope[wire_data->str] = wire_data;
while (wire_data->simplify(true, false, false, 1, -1, false)) { }
2013-01-05 04:13:26 -06:00
AstNode *wire_en = new AstNode(AST_WIRE);
wire_en->str = id_en;
current_ast_mod->children.push_back(wire_en);
current_scope[wire_en->str] = wire_en;
while (wire_en->simplify(true, false, false, 1, -1, false)) { }
2013-01-05 04:13:26 -06:00
std::vector<RTLIL::State> x_bits;
for (int i = 0; i < mem_width; i++)
x_bits.push_back(RTLIL::State::Sx);
2013-01-05 04:13:26 -06:00
AstNode *assign_addr = new AstNode(AST_ASSIGN_LE, new AstNode(AST_IDENTIFIER), mkconst_bits(x_bits, false));
assign_addr->children[0]->str = id_addr;
AstNode *assign_data = new AstNode(AST_ASSIGN_LE, new AstNode(AST_IDENTIFIER), mkconst_bits(x_bits, false));
assign_data->children[0]->str = id_data;
AstNode *assign_en = new AstNode(AST_ASSIGN_LE, new AstNode(AST_IDENTIFIER), mkconst_int(0, false, 1));
assign_en->children[0]->str = id_en;
AstNode *default_signals = new AstNode(AST_BLOCK);
default_signals->children.push_back(assign_addr);
default_signals->children.push_back(assign_data);
default_signals->children.push_back(assign_en);
current_top_block->children.insert(current_top_block->children.begin(), default_signals);
assign_addr = new AstNode(AST_ASSIGN_LE, new AstNode(AST_IDENTIFIER), children[0]->children[0]->children[0]->clone());
assign_addr->children[0]->str = id_addr;
assign_data = new AstNode(AST_ASSIGN_LE, new AstNode(AST_IDENTIFIER), children[1]->clone());
assign_data->children[0]->str = id_data;
assign_en = new AstNode(AST_ASSIGN_LE, new AstNode(AST_IDENTIFIER), mkconst_int(1, false, 1));
assign_en->children[0]->str = id_en;
newNode = new AstNode(AST_BLOCK);
newNode->children.push_back(assign_addr);
newNode->children.push_back(assign_data);
newNode->children.push_back(assign_en);
AstNode *wrnode = new AstNode(AST_MEMWR);
wrnode->children.push_back(new AstNode(AST_IDENTIFIER));
wrnode->children.push_back(new AstNode(AST_IDENTIFIER));
wrnode->children.push_back(new AstNode(AST_IDENTIFIER));
wrnode->str = children[0]->str;
wrnode->children[0]->str = id_addr;
wrnode->children[1]->str = id_data;
wrnode->children[2]->str = id_en;
current_ast_mod->children.push_back(wrnode);
goto apply_newNode;
}
// replace function and task calls with the code from the function or task
if ((type == AST_FCALL || type == AST_TCALL) && !str.empty())
{
if (type == AST_FCALL)
{
if (str == "\\$clog2")
{
AstNode *buf = children[0]->clone();
while (buf->simplify(true, false, false, stage, width_hint, sign_hint)) { }
if (buf->type != AST_CONSTANT)
log_error("Failed to evaluate system function `%s' with non-constant value at %s:%d.\n", str.c_str(), filename.c_str(), linenum);
RTLIL::Const arg_value = buf->bitsAsConst();
uint32_t result = 0;
for (size_t i = 0; i < arg_value.bits.size(); i++)
if (arg_value.bits.at(i) == RTLIL::State::S1)
result = i;
newNode = mkconst_int(result, false);
goto apply_newNode;
}
if (current_scope.count(str) == 0 || current_scope[str]->type != AST_FUNCTION)
log_error("Can't resolve function name `%s' at %s:%d.\n", str.c_str(), filename.c_str(), linenum);
2013-01-05 04:13:26 -06:00
}
if (type == AST_TCALL) {
if (current_scope.count(str) == 0 || current_scope[str]->type != AST_TASK)
log_error("Can't resolve task name `%s' at %s:%d.\n", str.c_str(), filename.c_str(), linenum);
}
AstNode *decl = current_scope[str];
std::stringstream sstr;
sstr << "$func$" << str << "$" << filename << ":" << linenum << "$" << (RTLIL::autoidx++) << "$";
std::string prefix = sstr.str();
size_t arg_count = 0;
std::map<std::string, std::string> replace_rules;
if (current_block == NULL)
{
assert(type == AST_FCALL);
AstNode *wire = NULL;
for (auto child : decl->children)
if (child->type == AST_WIRE && child->str == str)
wire = child->clone();
assert(wire != NULL);
wire->str = prefix + str;
wire->port_id = 0;
wire->is_input = false;
wire->is_output = false;
current_ast_mod->children.push_back(wire);
while (wire->simplify(true, false, false, 1, -1, false)) { }
2013-01-05 04:13:26 -06:00
AstNode *lvalue = new AstNode(AST_IDENTIFIER);
lvalue->str = wire->str;
AstNode *always = new AstNode(AST_ALWAYS, new AstNode(AST_BLOCK,
new AstNode(AST_ASSIGN_EQ, lvalue, clone())));
current_ast_mod->children.push_back(always);
goto replace_fcall_with_id;
}
for (auto child : decl->children)
{
if (child->type == AST_WIRE)
{
AstNode *wire = child->clone();
wire->str = prefix + wire->str;
wire->port_id = 0;
wire->is_input = false;
wire->is_output = false;
current_ast_mod->children.push_back(wire);
while (wire->simplify(true, false, false, 1, -1, false)) { }
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replace_rules[child->str] = wire->str;
if (child->is_input && arg_count < children.size())
{
AstNode *arg = children[arg_count++]->clone();
AstNode *wire_id = new AstNode(AST_IDENTIFIER);
wire_id->str = wire->str;
AstNode *assign = new AstNode(AST_ASSIGN_EQ, wire_id, arg);
for (auto it = current_block->children.begin(); it != current_block->children.end(); it++) {
if (*it != current_block_child)
continue;
current_block->children.insert(it, assign);
break;
}
}
}
else
{
AstNode *stmt = child->clone();
stmt->replace_ids(replace_rules);
for (auto it = current_block->children.begin(); it != current_block->children.end(); it++) {
if (*it != current_block_child)
continue;
current_block->children.insert(it, stmt);
break;
}
}
}
replace_fcall_with_id:
if (type == AST_FCALL) {
delete_children();
type = AST_IDENTIFIER;
str = prefix + str;
}
if (type == AST_TCALL)
str = "";
did_something = true;
}
// perform const folding when activated
if (const_fold && newNode == NULL)
{
bool string_op;
std::vector<RTLIL::State> tmp_bits;
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RTLIL::Const (*const_func)(const RTLIL::Const&, const RTLIL::Const&, bool, bool, int);
RTLIL::Const dummy_arg;
switch (type)
{
case AST_IDENTIFIER:
if (current_scope.count(str) > 0 && (current_scope[str]->type == AST_PARAMETER || current_scope[str]->type == AST_LOCALPARAM)) {
if (current_scope[str]->children[0]->type == AST_CONSTANT) {
if (children.size() != 0 && children[0]->type == AST_RANGE && children[0]->range_valid) {
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std::vector<RTLIL::State> data;
for (int i = children[0]->range_right; i <= children[0]->range_left; i++)
data.push_back(current_scope[str]->children[0]->bits[i]);
newNode = mkconst_bits(data, false);
} else
if (children.size() == 0)
newNode = current_scope[str]->children[0]->clone();
}
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}
else if (at_zero && current_scope.count(str) > 0 && (current_scope[str]->type == AST_WIRE || current_scope[str]->type == AST_AUTOWIRE)) {
newNode = mkconst_int(0, sign_hint, width_hint);
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}
break;
case AST_BIT_NOT:
if (children[0]->type == AST_CONSTANT) {
RTLIL::Const y = RTLIL::const_not(children[0]->bitsAsConst(width_hint, sign_hint), dummy_arg, sign_hint, false, width_hint);
newNode = mkconst_bits(y.bits, sign_hint);
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}
break;
case AST_TO_SIGNED:
case AST_TO_UNSIGNED:
if (children[0]->type == AST_CONSTANT) {
RTLIL::Const y = children[0]->bitsAsConst(width_hint, sign_hint);
newNode = mkconst_bits(y.bits, type == AST_TO_SIGNED);
}
break;
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if (0) { case AST_BIT_AND: const_func = RTLIL::const_and; }
if (0) { case AST_BIT_OR: const_func = RTLIL::const_or; }
if (0) { case AST_BIT_XOR: const_func = RTLIL::const_xor; }
if (0) { case AST_BIT_XNOR: const_func = RTLIL::const_xnor; }
if (children[0]->type == AST_CONSTANT && children[1]->type == AST_CONSTANT) {
RTLIL::Const y = const_func(children[0]->bitsAsConst(width_hint, sign_hint),
children[1]->bitsAsConst(width_hint, sign_hint), sign_hint, sign_hint, width_hint);
newNode = mkconst_bits(y.bits, sign_hint);
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}
break;
if (0) { case AST_REDUCE_AND: const_func = RTLIL::const_reduce_and; }
if (0) { case AST_REDUCE_OR: const_func = RTLIL::const_reduce_or; }
if (0) { case AST_REDUCE_XOR: const_func = RTLIL::const_reduce_xor; }
if (0) { case AST_REDUCE_XNOR: const_func = RTLIL::const_reduce_xnor; }
if (0) { case AST_REDUCE_BOOL: const_func = RTLIL::const_reduce_bool; }
if (children[0]->type == AST_CONSTANT) {
RTLIL::Const y = const_func(RTLIL::Const(children[0]->bits), dummy_arg, false, false, -1);
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newNode = mkconst_bits(y.bits, false);
}
break;
case AST_LOGIC_NOT:
if (children[0]->type == AST_CONSTANT) {
RTLIL::Const y = RTLIL::const_logic_not(RTLIL::Const(children[0]->bits), dummy_arg, children[0]->is_signed, false, -1);
newNode = mkconst_bits(y.bits, false);
}
break;
if (0) { case AST_LOGIC_AND: const_func = RTLIL::const_logic_and; }
if (0) { case AST_LOGIC_OR: const_func = RTLIL::const_logic_or; }
if (children[0]->type == AST_CONSTANT && children[1]->type == AST_CONSTANT) {
RTLIL::Const y = const_func(RTLIL::Const(children[0]->bits), RTLIL::Const(children[1]->bits),
children[0]->is_signed, children[1]->is_signed, -1);
newNode = mkconst_bits(y.bits, false);
}
break;
if (0) { case AST_SHIFT_LEFT: const_func = RTLIL::const_shl; }
if (0) { case AST_SHIFT_RIGHT: const_func = RTLIL::const_shr; }
if (0) { case AST_SHIFT_SLEFT: const_func = RTLIL::const_sshl; }
if (0) { case AST_SHIFT_SRIGHT: const_func = RTLIL::const_sshr; }
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if (0) { case AST_POW: const_func = RTLIL::const_pow; }
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if (children[0]->type == AST_CONSTANT && children[1]->type == AST_CONSTANT) {
RTLIL::Const y = const_func(children[0]->bitsAsConst(width_hint, sign_hint),
RTLIL::Const(children[1]->bits), sign_hint, type == AST_POW ? children[1]->is_signed : false, width_hint);
newNode = mkconst_bits(y.bits, sign_hint);
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}
break;
if (0) { case AST_LT: const_func = RTLIL::const_lt; }
if (0) { case AST_LE: const_func = RTLIL::const_le; }
if (0) { case AST_EQ: const_func = RTLIL::const_eq; }
if (0) { case AST_NE: const_func = RTLIL::const_ne; }
if (0) { case AST_EQX: const_func = RTLIL::const_eqx; }
if (0) { case AST_NEX: const_func = RTLIL::const_nex; }
if (0) { case AST_GE: const_func = RTLIL::const_ge; }
if (0) { case AST_GT: const_func = RTLIL::const_gt; }
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if (children[0]->type == AST_CONSTANT && children[1]->type == AST_CONSTANT) {
int cmp_width = std::max(children[0]->bits.size(), children[1]->bits.size());
bool cmp_signed = children[0]->is_signed && children[1]->is_signed;
RTLIL::Const y = const_func(children[0]->bitsAsConst(cmp_width, cmp_signed),
children[1]->bitsAsConst(cmp_width, cmp_signed), cmp_signed, cmp_signed, 1);
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newNode = mkconst_bits(y.bits, false);
}
break;
if (0) { case AST_ADD: const_func = RTLIL::const_add; }
if (0) { case AST_SUB: const_func = RTLIL::const_sub; }
if (0) { case AST_MUL: const_func = RTLIL::const_mul; }
if (0) { case AST_DIV: const_func = RTLIL::const_div; }
if (0) { case AST_MOD: const_func = RTLIL::const_mod; }
if (children[0]->type == AST_CONSTANT && children[1]->type == AST_CONSTANT) {
RTLIL::Const y = const_func(children[0]->bitsAsConst(width_hint, sign_hint),
children[1]->bitsAsConst(width_hint, sign_hint), sign_hint, sign_hint, width_hint);
newNode = mkconst_bits(y.bits, sign_hint);
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}
break;
if (0) { case AST_POS: const_func = RTLIL::const_pos; }
if (0) { case AST_NEG: const_func = RTLIL::const_neg; }
if (children[0]->type == AST_CONSTANT) {
RTLIL::Const y = const_func(children[0]->bitsAsConst(width_hint, sign_hint), dummy_arg, sign_hint, false, width_hint);
newNode = mkconst_bits(y.bits, sign_hint);
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}
break;
case AST_TERNARY:
if (children[0]->type == AST_CONSTANT) {
bool found_sure_true = false;
bool found_maybe_true = false;
for (auto &bit : children[0]->bits) {
if (bit == RTLIL::State::S1)
found_sure_true = true;
if (bit > RTLIL::State::S1)
found_maybe_true = true;
}
AstNode *choice = NULL;
if (found_sure_true)
choice = children[1];
else if (!found_maybe_true)
choice = children[2];
if (choice != NULL && choice->type == AST_CONSTANT) {
RTLIL::Const y = choice->bitsAsConst(width_hint, sign_hint);
if (choice->is_string && y.bits.size() % 8 == 0 && sign_hint == false)
newNode = mkconst_str(y.bits);
else
newNode = mkconst_bits(y.bits, sign_hint);
} else if (children[1]->type == AST_CONSTANT && children[2]->type == AST_CONSTANT) {
RTLIL::Const a = children[1]->bitsAsConst(width_hint, sign_hint);
RTLIL::Const b = children[2]->bitsAsConst(width_hint, sign_hint);
assert(a.bits.size() == b.bits.size());
for (size_t i = 0; i < a.bits.size(); i++)
if (a.bits[i] != b.bits[i])
a.bits[i] = RTLIL::State::Sx;
newNode = mkconst_bits(a.bits, sign_hint);
}
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}
break;
case AST_CONCAT:
string_op = !children.empty();
for (auto it = children.begin(); it != children.end(); it++) {
if ((*it)->type != AST_CONSTANT)
goto not_const;
if (!(*it)->is_string)
string_op = false;
tmp_bits.insert(tmp_bits.end(), (*it)->bits.begin(), (*it)->bits.end());
}
newNode = string_op ? mkconst_str(tmp_bits) : mkconst_bits(tmp_bits, false);
break;
case AST_REPLICATE:
if (children.at(0)->type != AST_CONSTANT || children.at(1)->type != AST_CONSTANT)
goto not_const;
for (int i = 0; i < children[0]->bitsAsConst().as_int(); i++)
tmp_bits.insert(tmp_bits.end(), children.at(1)->bits.begin(), children.at(1)->bits.end());
newNode = children.at(1)->is_string ? mkconst_str(tmp_bits) : mkconst_bits(tmp_bits, false);
break;
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default:
not_const:
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break;
}
}
// if any of the above set 'newNode' -> use 'newNode' as template to update 'this'
if (newNode) {
apply_newNode:
// fprintf(stderr, "----\n");
// dumpAst(stderr, "- ");
// newNode->dumpAst(stderr, "+ ");
assert(newNode != NULL);
newNode->filename = filename;
newNode->linenum = linenum;
newNode->cloneInto(this);
delete newNode;
did_something = true;
}
if (!did_something)
basic_prep = true;
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return did_something;
}
static void replace_result_wire_name_in_function(AstNode *node, std::string &from, std::string &to)
{
for (auto &it : node->children)
replace_result_wire_name_in_function(it, from, to);
if (node->str == from)
node->str = to;
}
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// annotate the names of all wires and other named objects in a generate block
void AstNode::expand_genblock(std::string index_var, std::string prefix, std::map<std::string, std::string> &name_map)
{
if (!index_var.empty() && type == AST_IDENTIFIER && str == index_var) {
current_scope[index_var]->children[0]->cloneInto(this);
return;
}
if ((type == AST_IDENTIFIER || type == AST_FCALL || type == AST_TCALL) && name_map.count(str) > 0)
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str = name_map[str];
std::map<std::string, std::string> backup_name_map;
for (size_t i = 0; i < children.size(); i++) {
AstNode *child = children[i];
if (child->type == AST_WIRE || child->type == AST_MEMORY || child->type == AST_PARAMETER || child->type == AST_LOCALPARAM ||
child->type == AST_FUNCTION || child->type == AST_TASK || child->type == AST_CELL) {
if (backup_name_map.size() == 0)
backup_name_map = name_map;
std::string new_name = prefix[0] == '\\' ? prefix.substr(1) : prefix;
size_t pos = child->str.rfind('.');
if (pos == std::string::npos)
pos = child->str[0] == '\\' ? 1 : 0;
else
pos = pos + 1;
new_name = child->str.substr(0, pos) + new_name + child->str.substr(pos);
if (new_name[0] != '$' && new_name[0] != '\\')
new_name = prefix[0] + new_name;
name_map[child->str] = new_name;
if (child->type == AST_FUNCTION)
replace_result_wire_name_in_function(child, child->str, new_name);
else
child->str = new_name;
current_scope[new_name] = child;
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}
}
for (size_t i = 0; i < children.size(); i++) {
AstNode *child = children[i];
if (child->type != AST_FUNCTION && child->type != AST_TASK && child->type != AST_PREFIX)
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child->expand_genblock(index_var, prefix, name_map);
}
if (backup_name_map.size() > 0)
name_map.swap(backup_name_map);
}
// rename stuff (used when tasks of functions are instanciated)
void AstNode::replace_ids(std::map<std::string, std::string> &rules)
{
if (type == AST_IDENTIFIER && rules.count(str) > 0)
str = rules[str];
for (auto child : children)
child->replace_ids(rules);
}
// find memories that should be replaced by registers
void AstNode::mem2reg_as_needed_pass1(std::map<AstNode*, std::set<std::string>> &mem2reg_places,
std::map<AstNode*, uint32_t> &mem2reg_candidates, std::map<AstNode*, uint32_t> &proc_flags, uint32_t &flags)
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{
uint32_t children_flags = 0;
int ignore_children_counter = 0;
if (type == AST_ASSIGN || type == AST_ASSIGN_LE || type == AST_ASSIGN_EQ)
{
if (children[0]->type == AST_IDENTIFIER && children[0]->id2ast && children[0]->id2ast->type == AST_MEMORY)
{
AstNode *mem = children[0]->id2ast;
// activate mem2reg if this is assigned in an async proc
if (flags & AstNode::MEM2REG_FL_ASYNC) {
if (!(mem2reg_candidates[mem] & AstNode::MEM2REG_FL_SET_ASYNC))
mem2reg_places[mem].insert(stringf("%s:%d", filename.c_str(), linenum));
mem2reg_candidates[mem] |= AstNode::MEM2REG_FL_SET_ASYNC;
}
// remember if this is assigned blocking (=)
if (type == AST_ASSIGN_EQ) {
if (!(proc_flags[mem] & AstNode::MEM2REG_FL_EQ1))
mem2reg_places[mem].insert(stringf("%s:%d", filename.c_str(), linenum));
proc_flags[mem] |= AstNode::MEM2REG_FL_EQ1;
}
// remember where this is
if (flags & MEM2REG_FL_INIT) {
if (!(mem2reg_candidates[mem] & AstNode::MEM2REG_FL_SET_INIT))
mem2reg_places[mem].insert(stringf("%s:%d", filename.c_str(), linenum));
mem2reg_candidates[mem] |= AstNode::MEM2REG_FL_SET_INIT;
} else {
if (!(mem2reg_candidates[mem] & AstNode::MEM2REG_FL_SET_ELSE))
mem2reg_places[mem].insert(stringf("%s:%d", filename.c_str(), linenum));
mem2reg_candidates[mem] |= AstNode::MEM2REG_FL_SET_ELSE;
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}
}
ignore_children_counter = 1;
}
if (type == AST_IDENTIFIER && id2ast && id2ast->type == AST_MEMORY)
{
AstNode *mem = id2ast;
// flag if used after blocking assignment (in same proc)
if ((proc_flags[mem] & AstNode::MEM2REG_FL_EQ1) && !(mem2reg_candidates[mem] & AstNode::MEM2REG_FL_EQ2)) {
mem2reg_places[mem].insert(stringf("%s:%d", filename.c_str(), linenum));
mem2reg_candidates[mem] |= AstNode::MEM2REG_FL_EQ2;
}
}
// also activate if requested, either by using mem2reg attribute or by declaring array as 'wire' instead of 'reg'
if (type == AST_MEMORY && (get_bool_attribute("\\mem2reg") || (flags & AstNode::MEM2REG_FL_ALL) || !is_reg))
mem2reg_candidates[this] |= AstNode::MEM2REG_FL_FORCED;
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if (type == AST_MODULE && get_bool_attribute("\\mem2reg"))
children_flags |= AstNode::MEM2REG_FL_ALL;
std::map<AstNode*, uint32_t> *proc_flags_p = NULL;
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if (type == AST_ALWAYS) {
2013-11-21 14:26:56 -06:00
int count_edge_events = 0;
for (auto child : children)
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if (child->type == AST_POSEDGE || child->type == AST_NEGEDGE)
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count_edge_events++;
if (count_edge_events != 1)
children_flags |= AstNode::MEM2REG_FL_ASYNC;
proc_flags_p = new std::map<AstNode*, uint32_t>;
}
if (type == AST_INITIAL) {
children_flags |= AstNode::MEM2REG_FL_INIT;
proc_flags_p = new std::map<AstNode*, uint32_t>;
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}
uint32_t backup_flags = flags;
flags |= children_flags;
assert((flags & ~0x000000ff) == 0);
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for (auto child : children)
if (ignore_children_counter > 0)
ignore_children_counter--;
else if (proc_flags_p)
child->mem2reg_as_needed_pass1(mem2reg_places, mem2reg_candidates, *proc_flags_p, flags);
else
child->mem2reg_as_needed_pass1(mem2reg_places, mem2reg_candidates, proc_flags, flags);
flags &= ~children_flags | backup_flags;
if (proc_flags_p) {
for (auto it : *proc_flags_p)
assert((it.second & ~0xff000000) == 0);
delete proc_flags_p;
}
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}
// actually replace memories with registers
void AstNode::mem2reg_as_needed_pass2(std::set<AstNode*> &mem2reg_set, AstNode *mod, AstNode *block)
2013-01-05 04:13:26 -06:00
{
if (type == AST_BLOCK)
block = this;
if ((type == AST_ASSIGN_LE || type == AST_ASSIGN_EQ) && block != NULL && children[0]->id2ast &&
mem2reg_set.count(children[0]->id2ast) > 0 && children[0]->children[0]->children[0]->type != AST_CONSTANT)
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{
std::stringstream sstr;
sstr << "$mem2reg_wr$" << children[0]->str << "$" << filename << ":" << linenum << "$" << (RTLIL::autoidx++);
std::string id_addr = sstr.str() + "_ADDR", id_data = sstr.str() + "_DATA";
int mem_width, mem_size, addr_bits;
children[0]->id2ast->meminfo(mem_width, mem_size, addr_bits);
AstNode *wire_addr = new AstNode(AST_WIRE, new AstNode(AST_RANGE, mkconst_int(addr_bits-1, true), mkconst_int(0, true)));
wire_addr->str = id_addr;
wire_addr->is_reg = true;
wire_addr->attributes["\\nosync"] = AstNode::mkconst_int(1, false);
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mod->children.push_back(wire_addr);
while (wire_addr->simplify(true, false, false, 1, -1, false)) { }
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AstNode *wire_data = new AstNode(AST_WIRE, new AstNode(AST_RANGE, mkconst_int(mem_width-1, true), mkconst_int(0, true)));
wire_data->str = id_data;
wire_data->is_reg = true;
wire_data->attributes["\\nosync"] = AstNode::mkconst_int(1, false);
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mod->children.push_back(wire_data);
while (wire_data->simplify(true, false, false, 1, -1, false)) { }
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assert(block != NULL);
size_t assign_idx = 0;
while (assign_idx < block->children.size() && block->children[assign_idx] != this)
assign_idx++;
assert(assign_idx < block->children.size());
AstNode *assign_addr = new AstNode(AST_ASSIGN_EQ, new AstNode(AST_IDENTIFIER), children[0]->children[0]->children[0]->clone());
assign_addr->children[0]->str = id_addr;
block->children.insert(block->children.begin()+assign_idx+1, assign_addr);
AstNode *case_node = new AstNode(AST_CASE, new AstNode(AST_IDENTIFIER));
case_node->children[0]->str = id_addr;
for (int i = 0; i < mem_size; i++) {
if (children[0]->children[0]->children[0]->type == AST_CONSTANT && int(children[0]->children[0]->children[0]->integer) != i)
continue;
AstNode *cond_node = new AstNode(AST_COND, AstNode::mkconst_int(i, false, addr_bits), new AstNode(AST_BLOCK));
AstNode *assign_reg = new AstNode(type, new AstNode(AST_IDENTIFIER), new AstNode(AST_IDENTIFIER));
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assign_reg->children[0]->str = stringf("%s[%d]", children[0]->str.c_str(), i);
assign_reg->children[1]->str = id_data;
cond_node->children[1]->children.push_back(assign_reg);
case_node->children.push_back(cond_node);
}
block->children.insert(block->children.begin()+assign_idx+2, case_node);
children[0]->delete_children();
children[0]->range_valid = false;
children[0]->id2ast = NULL;
children[0]->str = id_data;
type = AST_ASSIGN_EQ;
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}
if (type == AST_IDENTIFIER && id2ast && mem2reg_set.count(id2ast) > 0)
{
if (children[0]->children[0]->type == AST_CONSTANT)
{
int id = children[0]->children[0]->integer;
str = stringf("%s[%d]", str.c_str(), id);
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delete_children();
range_valid = false;
id2ast = NULL;
}
else
{
std::stringstream sstr;
sstr << "$mem2reg_rd$" << children[0]->str << "$" << filename << ":" << linenum << "$" << (RTLIL::autoidx++);
std::string id_addr = sstr.str() + "_ADDR", id_data = sstr.str() + "_DATA";
int mem_width, mem_size, addr_bits;
id2ast->meminfo(mem_width, mem_size, addr_bits);
AstNode *wire_addr = new AstNode(AST_WIRE, new AstNode(AST_RANGE, mkconst_int(addr_bits-1, true), mkconst_int(0, true)));
wire_addr->str = id_addr;
wire_addr->is_reg = true;
if (block)
wire_addr->attributes["\\nosync"] = AstNode::mkconst_int(1, false);
mod->children.push_back(wire_addr);
while (wire_addr->simplify(true, false, false, 1, -1, false)) { }
AstNode *wire_data = new AstNode(AST_WIRE, new AstNode(AST_RANGE, mkconst_int(mem_width-1, true), mkconst_int(0, true)));
wire_data->str = id_data;
wire_data->is_reg = true;
if (block)
wire_data->attributes["\\nosync"] = AstNode::mkconst_int(1, false);
mod->children.push_back(wire_data);
while (wire_data->simplify(true, false, false, 1, -1, false)) { }
AstNode *assign_addr = new AstNode(block ? AST_ASSIGN_EQ : AST_ASSIGN, new AstNode(AST_IDENTIFIER), children[0]->children[0]->clone());
assign_addr->children[0]->str = id_addr;
AstNode *case_node = new AstNode(AST_CASE, new AstNode(AST_IDENTIFIER));
case_node->children[0]->str = id_addr;
for (int i = 0; i < mem_size; i++) {
if (children[0]->children[0]->type == AST_CONSTANT && int(children[0]->children[0]->integer) != i)
continue;
AstNode *cond_node = new AstNode(AST_COND, AstNode::mkconst_int(i, false, addr_bits), new AstNode(AST_BLOCK));
AstNode *assign_reg = new AstNode(AST_ASSIGN_EQ, new AstNode(AST_IDENTIFIER), new AstNode(AST_IDENTIFIER));
assign_reg->children[0]->str = id_data;
assign_reg->children[1]->str = stringf("%s[%d]", str.c_str(), i);
cond_node->children[1]->children.push_back(assign_reg);
case_node->children.push_back(cond_node);
}
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std::vector<RTLIL::State> x_bits;
for (int i = 0; i < mem_width; i++)
x_bits.push_back(RTLIL::State::Sx);
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AstNode *cond_node = new AstNode(AST_COND, new AstNode(AST_DEFAULT), new AstNode(AST_BLOCK));
AstNode *assign_reg = new AstNode(AST_ASSIGN_EQ, new AstNode(AST_IDENTIFIER), AstNode::mkconst_bits(x_bits, false));
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assign_reg->children[0]->str = id_data;
cond_node->children[1]->children.push_back(assign_reg);
case_node->children.push_back(cond_node);
if (block)
{
size_t assign_idx = 0;
while (assign_idx < block->children.size() && !block->children[assign_idx]->contains(this))
assign_idx++;
assert(assign_idx < block->children.size());
block->children.insert(block->children.begin()+assign_idx, case_node);
block->children.insert(block->children.begin()+assign_idx, assign_addr);
}
else
{
AstNode *proc = new AstNode(AST_ALWAYS, new AstNode(AST_BLOCK));
proc->children[0]->children.push_back(case_node);
mod->children.push_back(proc);
mod->children.push_back(assign_addr);
}
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delete_children();
range_valid = false;
id2ast = NULL;
str = id_data;
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}
}
assert(id2ast == NULL || mem2reg_set.count(id2ast) == 0);
auto children_list = children;
for (size_t i = 0; i < children_list.size(); i++)
children_list[i]->mem2reg_as_needed_pass2(mem2reg_set, mod, block);
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}
// calulate memory dimensions
void AstNode::meminfo(int &mem_width, int &mem_size, int &addr_bits)
{
assert(type == AST_MEMORY);
mem_width = children[0]->range_left - children[0]->range_right + 1;
mem_size = children[1]->range_left - children[1]->range_right;
if (mem_size < 0)
mem_size *= -1;
mem_size += std::min(children[1]->range_left, children[1]->range_right) + 1;
addr_bits = 1;
while ((1 << addr_bits) < mem_size)
addr_bits++;
}