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-rw-r--r--src/sat/csat/csat_apis.c386
1 files changed, 250 insertions, 136 deletions
diff --git a/src/sat/csat/csat_apis.c b/src/sat/csat/csat_apis.c
index b030caef..5872f5bc 100644
--- a/src/sat/csat/csat_apis.c
+++ b/src/sat/csat/csat_apis.c
@@ -24,7 +24,11 @@
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
-struct CSAT_ManagerStruct_t
+#define ABC_DEFAULT_CONF_LIMIT 0 // limit on conflicts
+#define ABC_DEFAULT_IMP_LIMIT 0 // limit on implications
+
+
+struct ABC_ManagerStruct_t
{
// information about the problem
stmm_table * tName2Node; // the hash table mapping names to nodes
@@ -32,9 +36,10 @@ struct CSAT_ManagerStruct_t
Abc_Ntk_t * pNtk; // the starting ABC network
Abc_Ntk_t * pTarget; // the AIG representing the target
char * pDumpFileName; // the name of the file to dump the target network
+ Extra_MmFlex_t * pMmNames; // memory manager for signal names
// solving parameters
- int mode; // 0 = baseline; 1 = resource-aware fraiging
- Fraig_Params_t Params; // the set of parameters to call FRAIG package
+ int mode; // 0 = resource-aware integration; 1 = brute-force SAT
+ Prove_Params_t Params; // integrated CEC parameters
// information about the target
int nog; // the numbers of gates in the target
Vec_Ptr_t * vNodes; // the gates in the target
@@ -43,16 +48,18 @@ struct CSAT_ManagerStruct_t
CSAT_Target_ResultT * pResult; // the result of solving the target
};
-static CSAT_Target_ResultT * CSAT_TargetResAlloc( int nVars );
-static void CSAT_TargetResFree( CSAT_Target_ResultT * p );
-static char * CSAT_GetNodeName( CSAT_Manager mng, Abc_Obj_t * pNode );
+static CSAT_Target_ResultT * ABC_TargetResAlloc( int nVars );
+static char * ABC_GetNodeName( ABC_Manager mng, Abc_Obj_t * pNode );
+
+// procedures to start and stop the ABC framework
+extern void Abc_Start();
+extern void Abc_Stop();
// some external procedures
-extern Fraig_Man_t * Abc_NtkToFraig( Abc_Ntk_t * pNtk, Fraig_Params_t * pParams, int fAllNodes );
extern int Io_WriteBench( Abc_Ntk_t * pNtk, char * FileName );
////////////////////////////////////////////////////////////////////////
-/// FUNCTION DEFITIONS ///
+/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
@@ -66,17 +73,24 @@ extern int Io_WriteBench( Abc_Ntk_t * pNtk, char * FileName );
SeeAlso []
***********************************************************************/
-CSAT_Manager CSAT_InitManager()
+ABC_Manager ABC_InitManager()
{
- CSAT_Manager_t * mng;
- mng = ALLOC( CSAT_Manager_t, 1 );
- memset( mng, 0, sizeof(CSAT_Manager_t) );
- mng->pNtk = Abc_NtkAlloc( ABC_TYPE_LOGIC, ABC_FUNC_SOP );
- mng->pNtk->pName = util_strsav("csat_network");
+ ABC_Manager_t * mng;
+ Abc_Start();
+ mng = ALLOC( ABC_Manager_t, 1 );
+ memset( mng, 0, sizeof(ABC_Manager_t) );
+ mng->pNtk = Abc_NtkAlloc( ABC_NTK_LOGIC, ABC_FUNC_SOP, 1 );
+ mng->pNtk->pName = Extra_UtilStrsav("csat_network");
mng->tName2Node = stmm_init_table(strcmp, stmm_strhash);
mng->tNode2Name = stmm_init_table(stmm_ptrcmp, stmm_ptrhash);
+ mng->pMmNames = Extra_MmFlexStart();
mng->vNodes = Vec_PtrAlloc( 100 );
mng->vValues = Vec_IntAlloc( 100 );
+ mng->mode = 0; // set "resource-aware integration" as the default mode
+ // set default parameters for CEC
+ Prove_ParamsSetDefault( &mng->Params );
+ // set infinite resource limit for the final mitering
+// mng->Params.nMiteringLimitLast = ABC_INFINITY;
return mng;
}
@@ -91,40 +105,52 @@ CSAT_Manager CSAT_InitManager()
SeeAlso []
***********************************************************************/
-void CSAT_QuitManager( CSAT_Manager mng )
+void ABC_ReleaseManager( ABC_Manager mng )
{
+ CSAT_Target_ResultT * p_res = ABC_Get_Target_Result( mng,0 );
+ ABC_TargetResFree(p_res);
if ( mng->tNode2Name ) stmm_free_table( mng->tNode2Name );
if ( mng->tName2Node ) stmm_free_table( mng->tName2Node );
+ if ( mng->pMmNames ) Extra_MmFlexStop( mng->pMmNames );
if ( mng->pNtk ) Abc_NtkDelete( mng->pNtk );
if ( mng->pTarget ) Abc_NtkDelete( mng->pTarget );
if ( mng->vNodes ) Vec_PtrFree( mng->vNodes );
if ( mng->vValues ) Vec_IntFree( mng->vValues );
FREE( mng->pDumpFileName );
free( mng );
+ Abc_Stop();
}
/**Function*************************************************************
Synopsis [Sets solver options for learning.]
- Description [0 = baseline; 1 = resource-aware solving.]
+ Description []
SideEffects []
SeeAlso []
***********************************************************************/
-void CSAT_SetSolveOption( CSAT_Manager mng, enum CSAT_OptionT option )
+void ABC_SetSolveOption( ABC_Manager mng, enum CSAT_OptionT option )
{
- mng->mode = option;
- if ( option == 0 )
- printf( "CSAT_SetSolveOption: Setting baseline solving mode.\n" );
- else if ( option == 1 )
- printf( "CSAT_SetSolveOption: Setting resource-aware solving mode.\n" );
- else
- printf( "CSAT_SetSolveOption: Unknown option.\n" );
}
+/**Function*************************************************************
+
+ Synopsis [Sets solving mode by brute-force SAT.]
+
+ Description []
+
+ SideEffects []
+
+ SeeAlso []
+
+***********************************************************************/
+void ABC_UseOnlyCoreSatSolver( ABC_Manager mng )
+{
+ mng->mode = 1; // switch to "brute-force SAT" as the solving option
+}
/**Function*************************************************************
@@ -141,18 +167,24 @@ void CSAT_SetSolveOption( CSAT_Manager mng, enum CSAT_OptionT option )
SeeAlso []
***********************************************************************/
-int CSAT_AddGate( CSAT_Manager mng, enum GateType type, char * name, int nofi, char ** fanins, int dc_attr )
+int ABC_AddGate( ABC_Manager mng, enum GateType type, char * name, int nofi, char ** fanins, int dc_attr )
{
Abc_Obj_t * pObj, * pFanin;
- char * pSop;
+ char * pSop, * pNewName;
int i;
+ // save the name in the local memory manager
+ pNewName = Extra_MmFlexEntryFetch( mng->pMmNames, strlen(name) + 1 );
+ strcpy( pNewName, name );
+ name = pNewName;
+
+ // consider different cases, create the node, and map the node into the name
switch( type )
{
case CSAT_BPI:
case CSAT_BPPI:
if ( nofi != 0 )
- { printf( "CSAT_AddGate: The PI/PPI gate \"%s\" has fanins.\n", name ); return 0; }
+ { printf( "ABC_AddGate: The PI/PPI gate \"%s\" has fanins.\n", name ); return 0; }
// create the PI
pObj = Abc_NtkCreatePi( mng->pNtk );
stmm_insert( mng->tNode2Name, (char *)pObj, name );
@@ -172,7 +204,7 @@ int CSAT_AddGate( CSAT_Manager mng, enum GateType type, char * name, int nofi, c
for ( i = 0; i < nofi; i++ )
{
if ( !stmm_lookup( mng->tName2Node, fanins[i], (char **)&pFanin ) )
- { printf( "CSAT_AddGate: The fanin gate \"%s\" is not in the network.\n", fanins[i] ); return 0; }
+ { printf( "ABC_AddGate: The fanin gate \"%s\" is not in the network.\n", fanins[i] ); return 0; }
Abc_ObjAddFanin( pObj, pFanin );
}
// create the node function
@@ -180,51 +212,51 @@ int CSAT_AddGate( CSAT_Manager mng, enum GateType type, char * name, int nofi, c
{
case CSAT_CONST:
if ( nofi != 0 )
- { printf( "CSAT_AddGate: The constant gate \"%s\" has fanins.\n", name ); return 0; }
+ { printf( "ABC_AddGate: The constant gate \"%s\" has fanins.\n", name ); return 0; }
pSop = Abc_SopCreateConst1( mng->pNtk->pManFunc );
break;
case CSAT_BAND:
if ( nofi < 1 )
- { printf( "CSAT_AddGate: The AND gate \"%s\" no fanins.\n", name ); return 0; }
- pSop = Abc_SopCreateAnd( mng->pNtk->pManFunc, nofi );
+ { printf( "ABC_AddGate: The AND gate \"%s\" no fanins.\n", name ); return 0; }
+ pSop = Abc_SopCreateAnd( mng->pNtk->pManFunc, nofi, NULL );
break;
case CSAT_BNAND:
if ( nofi < 1 )
- { printf( "CSAT_AddGate: The NAND gate \"%s\" no fanins.\n", name ); return 0; }
+ { printf( "ABC_AddGate: The NAND gate \"%s\" no fanins.\n", name ); return 0; }
pSop = Abc_SopCreateNand( mng->pNtk->pManFunc, nofi );
break;
case CSAT_BOR:
if ( nofi < 1 )
- { printf( "CSAT_AddGate: The OR gate \"%s\" no fanins.\n", name ); return 0; }
+ { printf( "ABC_AddGate: The OR gate \"%s\" no fanins.\n", name ); return 0; }
pSop = Abc_SopCreateOr( mng->pNtk->pManFunc, nofi, NULL );
break;
case CSAT_BNOR:
if ( nofi < 1 )
- { printf( "CSAT_AddGate: The NOR gate \"%s\" no fanins.\n", name ); return 0; }
+ { printf( "ABC_AddGate: The NOR gate \"%s\" no fanins.\n", name ); return 0; }
pSop = Abc_SopCreateNor( mng->pNtk->pManFunc, nofi );
break;
case CSAT_BXOR:
if ( nofi < 1 )
- { printf( "CSAT_AddGate: The XOR gate \"%s\" no fanins.\n", name ); return 0; }
+ { printf( "ABC_AddGate: The XOR gate \"%s\" no fanins.\n", name ); return 0; }
if ( nofi > 2 )
- { printf( "CSAT_AddGate: The XOR gate \"%s\" has more than two fanins.\n", name ); return 0; }
+ { printf( "ABC_AddGate: The XOR gate \"%s\" has more than two fanins.\n", name ); return 0; }
pSop = Abc_SopCreateXor( mng->pNtk->pManFunc, nofi );
break;
case CSAT_BXNOR:
if ( nofi < 1 )
- { printf( "CSAT_AddGate: The XNOR gate \"%s\" no fanins.\n", name ); return 0; }
+ { printf( "ABC_AddGate: The XNOR gate \"%s\" no fanins.\n", name ); return 0; }
if ( nofi > 2 )
- { printf( "CSAT_AddGate: The XNOR gate \"%s\" has more than two fanins.\n", name ); return 0; }
+ { printf( "ABC_AddGate: The XNOR gate \"%s\" has more than two fanins.\n", name ); return 0; }
pSop = Abc_SopCreateNxor( mng->pNtk->pManFunc, nofi );
break;
case CSAT_BINV:
if ( nofi != 1 )
- { printf( "CSAT_AddGate: The inverter gate \"%s\" does not have exactly one fanin.\n", name ); return 0; }
+ { printf( "ABC_AddGate: The inverter gate \"%s\" does not have exactly one fanin.\n", name ); return 0; }
pSop = Abc_SopCreateInv( mng->pNtk->pManFunc );
break;
case CSAT_BBUF:
if ( nofi != 1 )
- { printf( "CSAT_AddGate: The buffer gate \"%s\" does not have exactly one fanin.\n", name ); return 0; }
+ { printf( "ABC_AddGate: The buffer gate \"%s\" does not have exactly one fanin.\n", name ); return 0; }
pSop = Abc_SopCreateBuf( mng->pNtk->pManFunc );
break;
default :
@@ -235,66 +267,85 @@ int CSAT_AddGate( CSAT_Manager mng, enum GateType type, char * name, int nofi, c
case CSAT_BPPO:
case CSAT_BPO:
if ( nofi != 1 )
- { printf( "CSAT_AddGate: The PO/PPO gate \"%s\" does not have exactly one fanin.\n", name ); return 0; }
+ { printf( "ABC_AddGate: The PO/PPO gate \"%s\" does not have exactly one fanin.\n", name ); return 0; }
// create the PO
pObj = Abc_NtkCreatePo( mng->pNtk );
stmm_insert( mng->tNode2Name, (char *)pObj, name );
// connect to the PO fanin
if ( !stmm_lookup( mng->tName2Node, fanins[0], (char **)&pFanin ) )
- { printf( "CSAT_AddGate: The fanin gate \"%s\" is not in the network.\n", fanins[0] ); return 0; }
+ { printf( "ABC_AddGate: The fanin gate \"%s\" is not in the network.\n", fanins[0] ); return 0; }
Abc_ObjAddFanin( pObj, pFanin );
break;
default:
- printf( "CSAT_AddGate: Unknown gate type.\n" );
+ printf( "ABC_AddGate: Unknown gate type.\n" );
break;
}
+
+ // map the name into the node
if ( stmm_insert( mng->tName2Node, name, (char *)pObj ) )
- { printf( "CSAT_AddGate: The same gate \"%s\" is added twice.\n", name ); return 0; }
+ { printf( "ABC_AddGate: The same gate \"%s\" is added twice.\n", name ); return 0; }
return 1;
}
/**Function*************************************************************
- Synopsis [Checks integraty of the manager.]
+ Synopsis [This procedure also finalizes construction of the ABC network.]
- Description [Checks if there are gates that are not used by any primary output.
- If no such gates exist, return 1 else return 0.]
+ Description []
SideEffects []
SeeAlso []
***********************************************************************/
-int CSAT_Check_Integrity( CSAT_Manager mng )
+void ABC_Network_Finalize( ABC_Manager mng )
{
Abc_Ntk_t * pNtk = mng->pNtk;
Abc_Obj_t * pObj;
int i;
-
- // this procedure also finalizes construction of the ABC network
- Abc_NtkFixNonDrivenNets( pNtk );
Abc_NtkForEachPi( pNtk, pObj, i )
- Abc_NtkLogicStoreName( pObj, CSAT_GetNodeName(mng, pObj) );
+ Abc_ObjAssignName( pObj, ABC_GetNodeName(mng, pObj), NULL );
Abc_NtkForEachPo( pNtk, pObj, i )
- Abc_NtkLogicStoreName( pObj, CSAT_GetNodeName(mng, pObj) );
+ Abc_ObjAssignName( pObj, ABC_GetNodeName(mng, pObj), NULL );
assert( Abc_NtkLatchNum(pNtk) == 0 );
+}
- // make sure everything is okay with the network structure
- if ( !Abc_NtkCheckRead( pNtk ) )
- {
- printf( "CSAT_Check_Integrity: The internal network check has failed.\n" );
- return 0;
- }
+/**Function*************************************************************
+
+ Synopsis [Checks integraty of the manager.]
+
+ Description [Checks if there are gates that are not used by any primary output.
+ If no such gates exist, return 1 else return 0.]
+
+ SideEffects []
- // check that there is no dangling nodes
+ SeeAlso []
+
+***********************************************************************/
+int ABC_Check_Integrity( ABC_Manager mng )
+{
+ Abc_Ntk_t * pNtk = mng->pNtk;
+ Abc_Obj_t * pObj;
+ int i;
+
+ // check that there are no dangling nodes
Abc_NtkForEachNode( pNtk, pObj, i )
{
+ if ( i == 0 )
+ continue;
if ( Abc_ObjFanoutNum(pObj) == 0 )
{
- printf( "CSAT_Check_Integrity: The network has dangling nodes.\n" );
+// printf( "ABC_Check_Integrity: The network has dangling nodes.\n" );
return 0;
}
}
+
+ // make sure everything is okay with the network structure
+ if ( !Abc_NtkDoCheck( pNtk ) )
+ {
+ printf( "ABC_Check_Integrity: The internal network check has failed.\n" );
+ return 0;
+ }
return 1;
}
@@ -309,9 +360,9 @@ int CSAT_Check_Integrity( CSAT_Manager mng )
SeeAlso []
***********************************************************************/
-void CSAT_SetTimeLimit( CSAT_Manager mng, int runtime )
+void ABC_SetTimeLimit( ABC_Manager mng, int runtime )
{
- printf( "CSAT_SetTimeLimit: The resource limit is not implemented (warning).\n" );
+// printf( "ABC_SetTimeLimit: The resource limit is not implemented (warning).\n" );
}
/**Function*************************************************************
@@ -325,9 +376,9 @@ void CSAT_SetTimeLimit( CSAT_Manager mng, int runtime )
SeeAlso []
***********************************************************************/
-void CSAT_SetLearnLimit( CSAT_Manager mng, int num )
+void ABC_SetLearnLimit( ABC_Manager mng, int num )
{
- printf( "CSAT_SetLearnLimit: The resource limit is not implemented (warning).\n" );
+// printf( "ABC_SetLearnLimit: The resource limit is not implemented (warning).\n" );
}
/**Function*************************************************************
@@ -341,9 +392,9 @@ void CSAT_SetLearnLimit( CSAT_Manager mng, int num )
SeeAlso []
***********************************************************************/
-void CSAT_SetSolveBacktrackLimit( CSAT_Manager mng, int num )
+void ABC_SetLearnBacktrackLimit( ABC_Manager mng, int num )
{
- printf( "CSAT_SetSolveBacktrackLimit: The resource limit is not implemented (warning).\n" );
+// printf( "ABC_SetLearnBacktrackLimit: The resource limit is not implemented (warning).\n" );
}
/**Function*************************************************************
@@ -357,9 +408,88 @@ void CSAT_SetSolveBacktrackLimit( CSAT_Manager mng, int num )
SeeAlso []
***********************************************************************/
-void CSAT_SetLearnBacktrackLimit( CSAT_Manager mng, int num )
+void ABC_SetSolveBacktrackLimit( ABC_Manager mng, int num )
{
- printf( "CSAT_SetLearnBacktrackLimit: The resource limit is not implemented (warning).\n" );
+ mng->Params.nMiteringLimitLast = num;
+}
+
+/**Function*************************************************************
+
+ Synopsis []
+
+ Description []
+
+ SideEffects []
+
+ SeeAlso []
+
+***********************************************************************/
+void ABC_SetSolveImplicationLimit( ABC_Manager mng, int num )
+{
+// printf( "ABC_SetSolveImplicationLimit: The resource limit is not implemented (warning).\n" );
+}
+
+/**Function*************************************************************
+
+ Synopsis []
+
+ Description []
+
+ SideEffects []
+
+ SeeAlso []
+
+***********************************************************************/
+void ABC_SetTotalBacktrackLimit( ABC_Manager mng, uint64 num )
+{
+ mng->Params.nTotalBacktrackLimit = num;
+}
+
+/**Function*************************************************************
+
+ Synopsis []
+
+ Description []
+
+ SideEffects []
+
+ SeeAlso []
+
+***********************************************************************/
+void ABC_SetTotalInspectLimit( ABC_Manager mng, uint64 num )
+{
+ mng->Params.nTotalInspectLimit = num;
+}
+/**Function*************************************************************
+
+ Synopsis []
+
+ Description []
+
+ SideEffects []
+
+ SeeAlso []
+
+***********************************************************************/
+uint64 ABC_GetTotalBacktracksMade( ABC_Manager mng )
+{
+ return mng->Params.nTotalBacktracksMade;
+}
+
+/**Function*************************************************************
+
+ Synopsis []
+
+ Description []
+
+ SideEffects []
+
+ SeeAlso []
+
+***********************************************************************/
+uint64 ABC_GetTotalInspectsMade( ABC_Manager mng )
+{
+ return mng->Params.nTotalInspectsMade;
}
/**Function*************************************************************
@@ -373,10 +503,10 @@ void CSAT_SetLearnBacktrackLimit( CSAT_Manager mng, int num )
SeeAlso []
***********************************************************************/
-void CSAT_EnableDump( CSAT_Manager mng, char * dump_file )
+void ABC_EnableDump( ABC_Manager mng, char * dump_file )
{
FREE( mng->pDumpFileName );
- mng->pDumpFileName = util_strsav( dump_file );
+ mng->pDumpFileName = Extra_UtilStrsav( dump_file );
}
/**Function*************************************************************
@@ -394,12 +524,12 @@ void CSAT_EnableDump( CSAT_Manager mng, char * dump_file )
SeeAlso []
***********************************************************************/
-int CSAT_AddTarget( CSAT_Manager mng, int nog, char ** names, int * values )
+int ABC_AddTarget( ABC_Manager mng, int nog, char ** names, int * values )
{
Abc_Obj_t * pObj;
int i;
if ( nog < 1 )
- { printf( "CSAT_AddTarget: The target has no gates.\n" ); return 0; }
+ { printf( "ABC_AddTarget: The target has no gates.\n" ); return 0; }
// clear storage for the target
mng->nog = 0;
Vec_PtrClear( mng->vNodes );
@@ -408,10 +538,10 @@ int CSAT_AddTarget( CSAT_Manager mng, int nog, char ** names, int * values )
for ( i = 0; i < nog; i++ )
{
if ( !stmm_lookup( mng->tName2Node, names[i], (char **)&pObj ) )
- { printf( "CSAT_AddTarget: The target gate \"%s\" is not in the network.\n", names[i] ); return 0; }
+ { printf( "ABC_AddTarget: The target gate \"%s\" is not in the network.\n", names[i] ); return 0; }
Vec_PtrPush( mng->vNodes, pObj );
if ( values[i] < 0 || values[i] > 1 )
- { printf( "CSAT_AddTarget: The value of gate \"%s\" is not 0 or 1.\n", names[i] ); return 0; }
+ { printf( "ABC_AddTarget: The value of gate \"%s\" is not 0 or 1.\n", names[i] ); return 0; }
Vec_IntPush( mng->vValues, values[i] );
}
mng->nog = nog;
@@ -423,50 +553,26 @@ int CSAT_AddTarget( CSAT_Manager mng, int nog, char ** names, int * values )
Synopsis [Initialize the solver internal data structure.]
Description [Prepares the solver to work on one specific target
- set by calling CSAT_AddTarget before.]
+ set by calling ABC_AddTarget before.]
SideEffects []
SeeAlso []
***********************************************************************/
-void CSAT_SolveInit( CSAT_Manager mng )
+void ABC_SolveInit( ABC_Manager mng )
{
- Fraig_Params_t * pParams = &mng->Params;
- int nWords1, nWords2, nWordsMin;
-
// check if the target is available
assert( mng->nog == Vec_PtrSize(mng->vNodes) );
if ( mng->nog == 0 )
- { printf( "CSAT_SolveInit: Target is not specified by CSAT_AddTarget().\n" ); return; }
+ { printf( "ABC_SolveInit: Target is not specified by ABC_AddTarget().\n" ); return; }
// free the previous target network if present
if ( mng->pTarget ) Abc_NtkDelete( mng->pTarget );
// set the new target network
- mng->pTarget = Abc_NtkCreateCone( mng->pNtk, mng->vNodes, mng->vValues );
-
- // to determine the number of simulation patterns
- // use the following strategy
- // at least 64 words (32 words random and 32 words dynamic)
- // no more than 256M for one circuit (128M + 128M)
- nWords1 = 32;
- nWords2 = (1<<27) / (Abc_NtkNodeNum(mng->pTarget) + Abc_NtkCiNum(mng->pTarget));
- nWordsMin = ABC_MIN( nWords1, nWords2 );
-
- // set parameters for fraiging
- memset( pParams, 0, sizeof(Fraig_Params_t) );
- pParams->nPatsRand = nWordsMin * 32; // the number of words of random simulation info
- pParams->nPatsDyna = nWordsMin * 32; // the number of words of dynamic simulation info
- pParams->nBTLimit = 99; // the max number of backtracks to perform at a node
- pParams->fFuncRed = mng->mode; // performs only one level hashing
- pParams->fFeedBack = 1; // enables solver feedback
- pParams->fDist1Pats = 1; // enables distance-1 patterns
- pParams->fDoSparse = 0; // performs equiv tests for sparse functions
- pParams->fChoicing = 0; // enables recording structural choices
- pParams->fTryProve = 1; // tries to solve the final miter
- pParams->fVerbose = 0; // the verbosiness flag
- pParams->fVerboseP = 0; // the verbosiness flag for proof reporting
+// mng->pTarget = Abc_NtkCreateTarget( mng->pNtk, mng->vNodes, mng->vValues );
+ mng->pTarget = Abc_NtkStrash( mng->pNtk, 0, 1, 0 );
}
/**Function*************************************************************
@@ -480,13 +586,13 @@ void CSAT_SolveInit( CSAT_Manager mng )
SeeAlso []
***********************************************************************/
-void CSAT_AnalyzeTargets( CSAT_Manager mng )
+void ABC_AnalyzeTargets( ABC_Manager mng )
{
}
/**Function*************************************************************
- Synopsis [Solves the targets added by CSAT_AddTarget().]
+ Synopsis [Solves the targets added by ABC_AddTarget().]
Description []
@@ -495,23 +601,24 @@ void CSAT_AnalyzeTargets( CSAT_Manager mng )
SeeAlso []
***********************************************************************/
-enum CSAT_StatusT CSAT_Solve( CSAT_Manager mng )
+enum CSAT_StatusT ABC_Solve( ABC_Manager mng )
{
- Fraig_Man_t * pMan;
- int * pModel;
+ Prove_Params_t * pParams = &mng->Params;
int RetValue, i;
// check if the target network is available
if ( mng->pTarget == NULL )
- { printf( "CSAT_Solve: Target network is not derived by CSAT_SolveInit().\n" ); return UNDETERMINED; }
+ { printf( "ABC_Solve: Target network is not derived by ABC_SolveInit().\n" ); return UNDETERMINED; }
- // transform the target into a fraig
- pMan = Abc_NtkToFraig( mng->pTarget, &mng->Params, 0 );
- Fraig_ManProveMiter( pMan );
+ // try to prove the miter using a number of techniques
+ if ( mng->mode )
+ RetValue = Abc_NtkMiterSat( mng->pTarget, (sint64)pParams->nMiteringLimitLast, (sint64)0, 0, NULL, NULL );
+ else
+// RetValue = Abc_NtkMiterProve( &mng->pTarget, pParams ); // old CEC engine
+ RetValue = Abc_NtkIvyProve( &mng->pTarget, pParams ); // new CEC engine
// analyze the result
- mng->pResult = CSAT_TargetResAlloc( Abc_NtkCiNum(mng->pTarget) );
- RetValue = Fraig_ManCheckMiter( pMan );
+ mng->pResult = ABC_TargetResAlloc( Abc_NtkCiNum(mng->pTarget) );
if ( RetValue == -1 )
mng->pResult->status = UNDETERMINED;
else if ( RetValue == 1 )
@@ -519,20 +626,16 @@ enum CSAT_StatusT CSAT_Solve( CSAT_Manager mng )
else if ( RetValue == 0 )
{
mng->pResult->status = SATISFIABLE;
- pModel = Fraig_ManReadModel( pMan );
- assert( pModel != NULL );
// create the array of PI names and values
for ( i = 0; i < mng->pResult->no_sig; i++ )
{
- mng->pResult->names[i] = CSAT_GetNodeName(mng, Abc_NtkCi(mng->pNtk, i)); // returns the same string that was given
- mng->pResult->values[i] = pModel[i];
+ mng->pResult->names[i] = Extra_UtilStrsav( ABC_GetNodeName(mng, Abc_NtkCi(mng->pNtk, i)) );
+ mng->pResult->values[i] = mng->pTarget->pModel[i];
}
+ FREE( mng->pTarget->pModel );
}
- else
- assert( 0 );
+ else assert( 0 );
- // delete the fraig manager
- Fraig_ManFree( pMan );
// delete the target
Abc_NtkDelete( mng->pTarget );
mng->pTarget = NULL;
@@ -544,38 +647,40 @@ enum CSAT_StatusT CSAT_Solve( CSAT_Manager mng )
Synopsis [Gets the solve status of a target.]
- Description [TargetID: the target id returned by CSAT_AddTarget().]
+ Description [TargetID: the target id returned by ABC_AddTarget().]
SideEffects []
SeeAlso []
***********************************************************************/
-CSAT_Target_ResultT * CSAT_Get_Target_Result( CSAT_Manager mng, int TargetID )
+CSAT_Target_ResultT * ABC_Get_Target_Result( ABC_Manager mng, int TargetID )
{
return mng->pResult;
}
/**Function*************************************************************
- Synopsis [Dumps the target AIG into the BENCH file.]
+ Synopsis [Dumps the original network into the BENCH file.]
- Description []
+ Description [This procedure should be modified to dump the target.]
SideEffects []
- SeeAlso []
+ SeeAlso []
***********************************************************************/
-void CSAT_Dump_Bench_File( CSAT_Manager mng )
+void ABC_Dump_Bench_File( ABC_Manager mng )
{
- Abc_Ntk_t * pNtkTemp;
+ Abc_Ntk_t * pNtkTemp, * pNtkAig;
char * pFileName;
-
+
// derive the netlist
- pNtkTemp = Abc_NtkLogicToNetlistBench( mng->pTarget );
+ pNtkAig = Abc_NtkStrash( mng->pNtk, 0, 0, 0 );
+ pNtkTemp = Abc_NtkToNetlistBench( pNtkAig );
+ Abc_NtkDelete( pNtkAig );
if ( pNtkTemp == NULL )
- { printf( "CSAT_Dump_Bench_File: Dumping BENCH has failed.\n" ); return; }
+ { printf( "ABC_Dump_Bench_File: Dumping BENCH has failed.\n" ); return; }
pFileName = mng->pDumpFileName? mng->pDumpFileName: "abc_test.bench";
Io_WriteBench( pNtkTemp, pFileName );
Abc_NtkDelete( pNtkTemp );
@@ -594,7 +699,7 @@ void CSAT_Dump_Bench_File( CSAT_Manager mng )
SeeAlso []
***********************************************************************/
-CSAT_Target_ResultT * CSAT_TargetResAlloc( int nVars )
+CSAT_Target_ResultT * ABC_TargetResAlloc( int nVars )
{
CSAT_Target_ResultT * p;
p = ALLOC( CSAT_Target_ResultT, 1 );
@@ -618,10 +723,18 @@ CSAT_Target_ResultT * CSAT_TargetResAlloc( int nVars )
SeeAlso []
***********************************************************************/
-void CSAT_TargetResFree( CSAT_Target_ResultT * p )
+void ABC_TargetResFree( CSAT_Target_ResultT * p )
{
if ( p == NULL )
return;
+ if( p->names )
+ {
+ int i = 0;
+ for ( i = 0; i < p->no_sig; i++ )
+ {
+ FREE(p->names[i]);
+ }
+ }
FREE( p->names );
FREE( p->values );
free( p );
@@ -638,7 +751,7 @@ void CSAT_TargetResFree( CSAT_Target_ResultT * p )
SeeAlso []
***********************************************************************/
-char * CSAT_GetNodeName( CSAT_Manager mng, Abc_Obj_t * pNode )
+char * ABC_GetNodeName( ABC_Manager mng, Abc_Obj_t * pNode )
{
char * pName = NULL;
if ( !stmm_lookup( mng->tNode2Name, (char *)pNode, (char **)&pName ) )
@@ -648,6 +761,7 @@ char * CSAT_GetNodeName( CSAT_Manager mng, Abc_Obj_t * pNode )
return pName;
}
+
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////