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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 .
*
*/
# include "kernel/register.h"
# include "kernel/log.h"
# include "libparse.h"
# include <string.h>
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# include <errno.h>
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USING_YOSYS_NAMESPACE
PRIVATE_NAMESPACE_BEGIN
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struct cell_mapping {
std : : string cell_name ;
std : : map < std : : string , char > ports ;
} ;
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static std : : map < RTLIL : : IdString , cell_mapping > cell_mappings ;
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static void logmap ( std : : string dff )
{
if ( cell_mappings . count ( dff ) = = 0 ) {
log ( " unmapped dff cell: %s \n " , dff . c_str ( ) ) ;
} else {
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log ( " %s %s ( " , cell_mappings [ dff ] . cell_name . c_str ( ) , dff . substr ( 1 ) . c_str ( ) ) ;
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bool first = true ;
for ( auto & port : cell_mappings [ dff ] . ports ) {
char arg [ 3 ] = { port . second , 0 , 0 } ;
if ( ' a ' < = arg [ 0 ] & & arg [ 0 ] < = ' z ' )
arg [ 1 ] = arg [ 0 ] - ( ' a ' - ' A ' ) , arg [ 0 ] = ' ~ ' ;
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else
arg [ 1 ] = arg [ 0 ] , arg [ 0 ] = ' ' ;
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log ( " %s.%s(%s) " , first ? " " : " , " , port . first . c_str ( ) , arg ) ;
first = false ;
}
log ( " ); \n " ) ;
}
}
static void logmap_all ( )
{
logmap ( " $_DFF_N_ " ) ;
logmap ( " $_DFF_P_ " ) ;
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logmap ( " $_DFF_NN0_ " ) ;
logmap ( " $_DFF_NN1_ " ) ;
logmap ( " $_DFF_NP0_ " ) ;
logmap ( " $_DFF_NP1_ " ) ;
logmap ( " $_DFF_PN0_ " ) ;
logmap ( " $_DFF_PN1_ " ) ;
logmap ( " $_DFF_PP0_ " ) ;
logmap ( " $_DFF_PP1_ " ) ;
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logmap ( " $_DFFSR_NNN_ " ) ;
logmap ( " $_DFFSR_NNP_ " ) ;
logmap ( " $_DFFSR_NPN_ " ) ;
logmap ( " $_DFFSR_NPP_ " ) ;
logmap ( " $_DFFSR_PNN_ " ) ;
logmap ( " $_DFFSR_PNP_ " ) ;
logmap ( " $_DFFSR_PPN_ " ) ;
logmap ( " $_DFFSR_PPP_ " ) ;
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}
static bool parse_pin ( LibertyAst * cell , LibertyAst * attr , std : : string & pin_name , bool & pin_pol )
{
if ( cell = = NULL | | attr = = NULL | | attr - > value . empty ( ) )
return false ;
std : : string value = attr - > value ;
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for ( size_t pos = value . find_first_of ( " \" \t () " ) ; pos ! = std : : string : : npos ; pos = value . find_first_of ( " \" \t () " ) )
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value . erase ( pos , 1 ) ;
if ( value [ value . size ( ) - 1 ] = = ' \' ' ) {
pin_name = value . substr ( 0 , value . size ( ) - 1 ) ;
pin_pol = false ;
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} else if ( value [ 0 ] = = ' ! ' ) {
pin_name = value . substr ( 1 , value . size ( ) - 1 ) ;
pin_pol = false ;
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} else {
pin_name = value ;
pin_pol = true ;
}
for ( auto child : cell - > children )
if ( child - > id = = " pin " & & child - > args . size ( ) = = 1 & & child - > args [ 0 ] = = pin_name )
return true ;
return false ;
}
static void find_cell ( LibertyAst * ast , std : : string cell_type , bool clkpol , bool has_reset , bool rstpol , bool rstval )
{
LibertyAst * best_cell = NULL ;
std : : map < std : : string , char > best_cell_ports ;
int best_cell_pins = 0 ;
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float best_cell_area = 0 ;
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if ( ast - > id ! = " library " )
log_error ( " Format error in liberty file. \n " ) ;
for ( auto cell : ast - > children )
{
if ( cell - > id ! = " cell " | | cell - > args . size ( ) ! = 1 )
continue ;
LibertyAst * ff = cell - > find ( " ff " ) ;
if ( ff = = NULL )
continue ;
std : : string cell_clk_pin , cell_rst_pin , cell_next_pin ;
bool cell_clk_pol , cell_rst_pol , cell_next_pol ;
if ( ! parse_pin ( cell , ff - > find ( " clocked_on " ) , cell_clk_pin , cell_clk_pol ) | | cell_clk_pol ! = clkpol )
continue ;
if ( ! parse_pin ( cell , ff - > find ( " next_state " ) , cell_next_pin , cell_next_pol ) )
continue ;
if ( has_reset & & rstval = = false ) {
if ( ! parse_pin ( cell , ff - > find ( " clear " ) , cell_rst_pin , cell_rst_pol ) | | cell_rst_pol ! = rstpol )
continue ;
}
if ( has_reset & & rstval = = true ) {
if ( ! parse_pin ( cell , ff - > find ( " preset " ) , cell_rst_pin , cell_rst_pol ) | | cell_rst_pol ! = rstpol )
continue ;
}
std : : map < std : : string , char > this_cell_ports ;
this_cell_ports [ cell_clk_pin ] = ' C ' ;
if ( has_reset )
this_cell_ports [ cell_rst_pin ] = ' R ' ;
this_cell_ports [ cell_next_pin ] = ' D ' ;
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float area = 0 ;
LibertyAst * ar = cell - > find ( " area " ) ;
if ( ar ! = NULL & & ! ar - > value . empty ( ) )
area = atof ( ar - > value . c_str ( ) ) ;
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int num_pins = 0 ;
bool found_output = false ;
for ( auto pin : cell - > children )
{
if ( pin - > id ! = " pin " | | pin - > args . size ( ) ! = 1 )
continue ;
LibertyAst * dir = pin - > find ( " direction " ) ;
if ( dir = = NULL | | dir - > value = = " internal " )
continue ;
num_pins + + ;
if ( dir - > value = = " input " & & this_cell_ports . count ( pin - > args [ 0 ] ) = = 0 )
goto continue_cell_loop ;
LibertyAst * func = pin - > find ( " function " ) ;
if ( dir - > value = = " output " & & func ! = NULL ) {
std : : string value = func - > value ;
for ( size_t pos = value . find_first_of ( " \" \t " ) ; pos ! = std : : string : : npos ; pos = value . find_first_of ( " \" \t " ) )
value . erase ( pos , 1 ) ;
if ( ( cell_next_pol = = true & & value = = ff - > args [ 0 ] ) | | ( cell_next_pol = = false & & value = = ff - > args [ 1 ] ) ) {
this_cell_ports [ pin - > args [ 0 ] ] = ' Q ' ;
found_output = true ;
}
}
if ( this_cell_ports . count ( pin - > args [ 0 ] ) = = 0 )
this_cell_ports [ pin - > args [ 0 ] ] = 0 ;
}
if ( ! found_output | | ( best_cell ! = NULL & & num_pins > best_cell_pins ) )
continue ;
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if ( best_cell ! = NULL & & num_pins = = best_cell_pins & & area > best_cell_area )
continue ;
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best_cell = cell ;
best_cell_pins = num_pins ;
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best_cell_area = area ;
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best_cell_ports . swap ( this_cell_ports ) ;
continue_cell_loop : ;
}
if ( best_cell ! = NULL ) {
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log ( " cell %s (pins=%d, area=%.2f) is a direct match for cell type %s. \n " , best_cell - > args [ 0 ] . c_str ( ) , best_cell_pins , best_cell_area , cell_type . substr ( 1 ) . c_str ( ) ) ;
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cell_mappings [ cell_type ] . cell_name = best_cell - > args [ 0 ] ;
cell_mappings [ cell_type ] . ports = best_cell_ports ;
}
}
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static void find_cell_sr ( LibertyAst * ast , std : : string cell_type , bool clkpol , bool setpol , bool clrpol )
{
LibertyAst * best_cell = NULL ;
std : : map < std : : string , char > best_cell_ports ;
int best_cell_pins = 0 ;
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float best_cell_area = 0 ;
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if ( ast - > id ! = " library " )
log_error ( " Format error in liberty file. \n " ) ;
for ( auto cell : ast - > children )
{
if ( cell - > id ! = " cell " | | cell - > args . size ( ) ! = 1 )
continue ;
LibertyAst * ff = cell - > find ( " ff " ) ;
if ( ff = = NULL )
continue ;
std : : string cell_clk_pin , cell_set_pin , cell_clr_pin , cell_next_pin ;
bool cell_clk_pol , cell_set_pol , cell_clr_pol , cell_next_pol ;
if ( ! parse_pin ( cell , ff - > find ( " clocked_on " ) , cell_clk_pin , cell_clk_pol ) | | cell_clk_pol ! = clkpol )
continue ;
if ( ! parse_pin ( cell , ff - > find ( " next_state " ) , cell_next_pin , cell_next_pol ) )
continue ;
if ( ! parse_pin ( cell , ff - > find ( " preset " ) , cell_set_pin , cell_set_pol ) | | cell_set_pol ! = setpol )
continue ;
if ( ! parse_pin ( cell , ff - > find ( " clear " ) , cell_clr_pin , cell_clr_pol ) | | cell_clr_pol ! = clrpol )
continue ;
std : : map < std : : string , char > this_cell_ports ;
this_cell_ports [ cell_clk_pin ] = ' C ' ;
this_cell_ports [ cell_set_pin ] = ' S ' ;
this_cell_ports [ cell_clr_pin ] = ' R ' ;
this_cell_ports [ cell_next_pin ] = ' D ' ;
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float area = 0 ;
LibertyAst * ar = cell - > find ( " area " ) ;
if ( ar ! = NULL & & ! ar - > value . empty ( ) )
area = atof ( ar - > value . c_str ( ) ) ;
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int num_pins = 0 ;
bool found_output = false ;
for ( auto pin : cell - > children )
{
if ( pin - > id ! = " pin " | | pin - > args . size ( ) ! = 1 )
continue ;
LibertyAst * dir = pin - > find ( " direction " ) ;
if ( dir = = NULL | | dir - > value = = " internal " )
continue ;
num_pins + + ;
if ( dir - > value = = " input " & & this_cell_ports . count ( pin - > args [ 0 ] ) = = 0 )
goto continue_cell_loop ;
LibertyAst * func = pin - > find ( " function " ) ;
if ( dir - > value = = " output " & & func ! = NULL ) {
std : : string value = func - > value ;
for ( size_t pos = value . find_first_of ( " \" \t " ) ; pos ! = std : : string : : npos ; pos = value . find_first_of ( " \" \t " ) )
value . erase ( pos , 1 ) ;
if ( ( cell_next_pol = = true & & value = = ff - > args [ 0 ] ) | | ( cell_next_pol = = false & & value = = ff - > args [ 1 ] ) ) {
this_cell_ports [ pin - > args [ 0 ] ] = ' Q ' ;
found_output = true ;
}
}
if ( this_cell_ports . count ( pin - > args [ 0 ] ) = = 0 )
this_cell_ports [ pin - > args [ 0 ] ] = 0 ;
}
if ( ! found_output | | ( best_cell ! = NULL & & num_pins > best_cell_pins ) )
continue ;
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if ( best_cell ! = NULL & & num_pins = = best_cell_pins & & area > best_cell_area )
continue ;
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best_cell = cell ;
best_cell_pins = num_pins ;
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best_cell_area = area ;
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best_cell_ports . swap ( this_cell_ports ) ;
continue_cell_loop : ;
}
if ( best_cell ! = NULL ) {
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log ( " cell %s (pins=%d, area=%.2f) is a direct match for cell type %s. \n " , best_cell - > args [ 0 ] . c_str ( ) , best_cell_pins , best_cell_area , cell_type . substr ( 1 ) . c_str ( ) ) ;
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cell_mappings [ cell_type ] . cell_name = best_cell - > args [ 0 ] ;
cell_mappings [ cell_type ] . ports = best_cell_ports ;
}
}
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static bool expand_cellmap_worker ( std : : string from , std : : string to , std : : string inv )
{
if ( cell_mappings . count ( to ) > 0 )
return false ;
log ( " create mapping for %s from mapping for %s. \n " , to . c_str ( ) , from . c_str ( ) ) ;
cell_mappings [ to ] . cell_name = cell_mappings [ from ] . cell_name ;
cell_mappings [ to ] . ports = cell_mappings [ from ] . ports ;
for ( auto & it : cell_mappings [ to ] . ports ) {
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char cmp_ch = it . second ;
if ( ' a ' < = cmp_ch & & cmp_ch < = ' z ' )
cmp_ch - = ' a ' - ' A ' ;
if ( inv . find ( cmp_ch ) = = std : : string : : npos )
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continue ;
if ( ' a ' < = it . second & & it . second < = ' z ' )
it . second - = ' a ' - ' A ' ;
else if ( ' A ' < = it . second & & it . second < = ' Z ' )
it . second + = ' a ' - ' A ' ;
}
return true ;
}
static bool expand_cellmap ( std : : string pattern , std : : string inv )
{
std : : vector < std : : pair < std : : string , std : : string > > from_to_list ;
bool return_status = false ;
for ( auto & it : cell_mappings ) {
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std : : string from = it . first . str ( ) , to = it . first . str ( ) ;
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if ( from . size ( ) ! = pattern . size ( ) )
continue ;
for ( size_t i = 0 ; i < from . size ( ) ; i + + ) {
if ( pattern [ i ] = = ' * ' ) {
to [ i ] = from [ i ] = = ' P ' ? ' N ' :
from [ i ] = = ' N ' ? ' P ' :
from [ i ] = = ' 1 ' ? ' 0 ' :
from [ i ] = = ' 0 ' ? ' 1 ' : ' * ' ;
} else
if ( pattern [ i ] ! = ' ? ' & & pattern [ i ] ! = from [ i ] )
goto pattern_failed ;
}
from_to_list . push_back ( std : : pair < std : : string , std : : string > ( from , to ) ) ;
pattern_failed : ;
}
for ( auto & it : from_to_list )
return_status = return_status | | expand_cellmap_worker ( it . first , it . second , inv ) ;
return return_status ;
}
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static void map_sr_to_arst ( const char * from , const char * to )
{
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if ( ! cell_mappings . count ( from ) | | cell_mappings . count ( to ) > 0 )
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return ;
char from_clk_pol = from [ 8 ] , from_set_pol = from [ 9 ] , from_clr_pol = from [ 10 ] ;
char to_clk_pol = to [ 6 ] , to_rst_pol = to [ 7 ] , to_rst_val = to [ 8 ] ;
log_assert ( from_clk_pol = = to_clk_pol ) ;
log_assert ( to_rst_pol = = from_set_pol & & to_rst_pol = = from_clr_pol ) ;
log ( " create mapping for %s from mapping for %s. \n " , to , from ) ;
cell_mappings [ to ] . cell_name = cell_mappings [ from ] . cell_name ;
cell_mappings [ to ] . ports = cell_mappings [ from ] . ports ;
for ( auto & it : cell_mappings [ to ] . ports )
{
bool is_set_pin = it . second = = ' S ' | | it . second = = ' s ' ;
bool is_clr_pin = it . second = = ' R ' | | it . second = = ' r ' ;
if ( ! is_set_pin & & ! is_clr_pin )
continue ;
if ( ( to_rst_val = = ' 0 ' & & is_set_pin ) | | ( to_rst_val = = ' 1 ' & & is_clr_pin ) )
{
// this is the unused set/clr pin -- deactivate it
if ( is_set_pin )
it . second = ( from_set_pol = = ' P ' ) = = ( it . second = = ' S ' ) ? ' 0 ' : ' 1 ' ;
else
it . second = ( from_clr_pol = = ' P ' ) = = ( it . second = = ' R ' ) ? ' 0 ' : ' 1 ' ;
}
else
{
// this is the used set/clr pin -- rename it to 'reset'
if ( it . second = = ' S ' )
it . second = ' R ' ;
if ( it . second = = ' s ' )
it . second = ' r ' ;
}
}
}
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static void dfflibmap ( RTLIL : : Design * design , RTLIL : : Module * module )
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{
log ( " Mapping DFF cells in module `%s': \n " , module - > name . c_str ( ) ) ;
std : : vector < RTLIL : : Cell * > cell_list ;
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for ( auto & it : module - > cells_ ) {
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if ( design - > selected ( module , it . second ) & & cell_mappings . count ( it . second - > type ) > 0 )
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cell_list . push_back ( it . second ) ;
}
std : : map < std : : string , int > stats ;
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for ( auto cell : cell_list )
{
auto cell_type = cell - > type ;
auto cell_name = cell - > name ;
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auto cell_connections = cell - > connections ( ) ;
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module - > remove ( cell ) ;
cell_mapping & cm = cell_mappings [ cell_type ] ;
RTLIL : : Cell * new_cell = module - > addCell ( cell_name , " \\ " + cm . cell_name ) ;
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for ( auto & port : cm . ports ) {
RTLIL : : SigSpec sig ;
if ( ' A ' < = port . second & & port . second < = ' Z ' ) {
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sig = cell_connections [ std : : string ( " \\ " ) + port . second ] ;
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} else
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if ( port . second = = ' q ' ) {
RTLIL : : SigSpec old_sig = cell_connections [ std : : string ( " \\ " ) + char ( port . second - ( ' a ' - ' A ' ) ) ] ;
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sig = module - > addWire ( NEW_ID , GetSize ( old_sig ) ) ;
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module - > addNotGate ( NEW_ID , sig , old_sig ) ;
} else
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if ( ' a ' < = port . second & & port . second < = ' z ' ) {
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sig = cell_connections [ std : : string ( " \\ " ) + char ( port . second - ( ' a ' - ' A ' ) ) ] ;
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sig = module - > NotGate ( NEW_ID , sig ) ;
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} else
if ( port . second = = ' 0 ' | | port . second = = ' 1 ' ) {
sig = RTLIL : : SigSpec ( port . second = = ' 0 ' ? 0 : 1 , 1 ) ;
} else
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if ( port . second ! = 0 )
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log_abort ( ) ;
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new_cell - > setPort ( " \\ " + port . first , sig ) ;
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}
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stats [ stringf ( " mapped %%d %s cells to %s cells. \n " , cell_type . c_str ( ) , new_cell - > type . c_str ( ) ) ] + + ;
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}
for ( auto & stat : stats )
log ( stat . first . c_str ( ) , stat . second ) ;
}
struct DfflibmapPass : public Pass {
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DfflibmapPass ( ) : Pass ( " dfflibmap " , " technology mapping of flip-flops " ) { }
virtual void help ( )
{
log ( " \n " ) ;
log ( " dfflibmap -liberty <file> [selection] \n " ) ;
log ( " \n " ) ;
log ( " Map internal flip-flop cells to the flip-flop cells in the technology \n " ) ;
log ( " library specified in the given liberty file. \n " ) ;
log ( " \n " ) ;
log ( " This pass may add inverters as needed. Therefore it is recommended to \n " ) ;
log ( " first run this pass and then map the logic paths to the target technology. \n " ) ;
log ( " \n " ) ;
}
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virtual void execute ( std : : vector < std : : string > args , RTLIL : : Design * design )
{
log_header ( " Executing DFFLIBMAP pass (mapping DFF cells to sequential cells from liberty file). \n " ) ;
std : : string liberty_file ;
size_t argidx ;
for ( argidx = 1 ; argidx < args . size ( ) ; argidx + + )
{
std : : string arg = args [ argidx ] ;
if ( arg = = " -liberty " & & argidx + 1 < args . size ( ) ) {
liberty_file = args [ + + argidx ] ;
continue ;
}
break ;
}
extra_args ( args , argidx , design ) ;
if ( liberty_file . empty ( ) )
log_cmd_error ( " Missing `-liberty liberty_file' option! \n " ) ;
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std : : ifstream f ;
f . open ( liberty_file . c_str ( ) ) ;
if ( f . fail ( ) )
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log_cmd_error ( " Can't open liberty file `%s': %s \n " , liberty_file . c_str ( ) , strerror ( errno ) ) ;
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LibertyParser libparser ( f ) ;
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f . close ( ) ;
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find_cell ( libparser . ast , " $_DFF_N_ " , false , false , false , false ) ;
find_cell ( libparser . ast , " $_DFF_P_ " , true , false , false , false ) ;
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find_cell ( libparser . ast , " $_DFF_NN0_ " , false , true , false , false ) ;
find_cell ( libparser . ast , " $_DFF_NN1_ " , false , true , false , true ) ;
find_cell ( libparser . ast , " $_DFF_NP0_ " , false , true , true , false ) ;
find_cell ( libparser . ast , " $_DFF_NP1_ " , false , true , true , true ) ;
find_cell ( libparser . ast , " $_DFF_PN0_ " , true , true , false , false ) ;
find_cell ( libparser . ast , " $_DFF_PN1_ " , true , true , false , true ) ;
find_cell ( libparser . ast , " $_DFF_PP0_ " , true , true , true , false ) ;
find_cell ( libparser . ast , " $_DFF_PP1_ " , true , true , true , true ) ;
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find_cell_sr ( libparser . ast , " $_DFFSR_NNN_ " , false , false , false ) ;
find_cell_sr ( libparser . ast , " $_DFFSR_NNP_ " , false , false , true ) ;
find_cell_sr ( libparser . ast , " $_DFFSR_NPN_ " , false , true , false ) ;
find_cell_sr ( libparser . ast , " $_DFFSR_NPP_ " , false , true , true ) ;
find_cell_sr ( libparser . ast , " $_DFFSR_PNN_ " , true , false , false ) ;
find_cell_sr ( libparser . ast , " $_DFFSR_PNP_ " , true , false , true ) ;
find_cell_sr ( libparser . ast , " $_DFFSR_PPN_ " , true , true , false ) ;
find_cell_sr ( libparser . ast , " $_DFFSR_PPP_ " , true , true , true ) ;
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// try to implement as many cells as possible just by inverting
// the SET and RESET pins. If necessary, implement cell types
// by inverting both D and Q. Only invert clock pins if there
// is no other way of implementing the cell.
while ( 1 )
{
if ( expand_cellmap ( " $_DFF_?*?_ " , " R " ) | |
expand_cellmap ( " $_DFFSR_?*?_ " , " S " ) | |
expand_cellmap ( " $_DFFSR_??*_ " , " R " ) )
continue ;
if ( expand_cellmap ( " $_DFF_??*_ " , " DQ " ) )
continue ;
if ( expand_cellmap ( " $_DFF_*_ " , " C " ) | |
expand_cellmap ( " $_DFF_*??_ " , " C " ) | |
expand_cellmap ( " $_DFFSR_*??_ " , " C " ) )
continue ;
break ;
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}
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map_sr_to_arst ( " $_DFFSR_NNN_ " , " $_DFF_NN0_ " ) ;
map_sr_to_arst ( " $_DFFSR_NNN_ " , " $_DFF_NN1_ " ) ;
map_sr_to_arst ( " $_DFFSR_NPP_ " , " $_DFF_NP0_ " ) ;
map_sr_to_arst ( " $_DFFSR_NPP_ " , " $_DFF_NP1_ " ) ;
map_sr_to_arst ( " $_DFFSR_PNN_ " , " $_DFF_PN0_ " ) ;
map_sr_to_arst ( " $_DFFSR_PNN_ " , " $_DFF_PN1_ " ) ;
map_sr_to_arst ( " $_DFFSR_PPP_ " , " $_DFF_PP0_ " ) ;
map_sr_to_arst ( " $_DFFSR_PPP_ " , " $_DFF_PP1_ " ) ;
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log ( " final dff cell mappings: \n " ) ;
logmap_all ( ) ;
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for ( auto & it : design - > modules_ )
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if ( design - > selected ( it . second ) & & ! it . second - > get_bool_attribute ( " \\ blackbox " ) )
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dfflibmap ( design , it . second ) ;
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cell_mappings . clear ( ) ;
}
} DfflibmapPass ;
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PRIVATE_NAMESPACE_END