#include "Cmm.h"
+#ifdef __PIC__
+#ifndef mingw32_HOST_OS
import __gmpz_init;
import __gmpz_add;
import __gmpz_sub;
import __gmpz_xor;
import __gmpz_ior;
import __gmpz_com;
-import base_GHCziIOBase_NestedAtomically_closure;
+#endif
import pthread_mutex_lock;
import pthread_mutex_unlock;
+#endif
+import base_GHCziIOBase_NestedAtomically_closure;
+import EnterCriticalSection;
+import LeaveCriticalSection;
/*-----------------------------------------------------------------------------
Array Primitives
HP_CHK_GEN_TICKY(SIZE, R1_PTR & R2_PTR, atomicModifyMutVarzh_fast);
#if defined(THREADED_RTS)
- foreign "C" ACQUIRE_LOCK(atomic_modify_mutvar_mutex "ptr") [R1,R2];
+ ACQUIRE_LOCK(atomic_modify_mutvar_mutex "ptr") [R1,R2];
#endif
x = StgMutVar_var(R1);
StgThunk_payload(r,0) = z;
#if defined(THREADED_RTS)
- foreign "C" RELEASE_LOCK(atomic_modify_mutvar_mutex "ptr") [];
+ RELEASE_LOCK(atomic_modify_mutvar_mutex "ptr") [];
#endif
RET_P(r);
RET_NNP(W_[mp_tmp_w], TO_W_(MP_INT__mp_size(mp_tmp1)), p);
}
+decodeFloatzuIntzh_fast
+{
+ W_ p;
+ F_ arg;
+ FETCH_MP_TEMP(mp_tmp1);
+ FETCH_MP_TEMP(mp_tmp_w);
+
+ /* arguments: F1 = Float# */
+ arg = F1;
+
+ /* Perform the operation */
+ foreign "C" __decodeFloat_Int(mp_tmp1 "ptr", mp_tmp_w "ptr", arg) [];
+
+ /* returns: (Int# (mantissa), Int# (exponent)) */
+ RET_NN(W_[mp_tmp1], W_[mp_tmp_w]);
+}
+
#define DOUBLE_MANTISSA_SIZE SIZEOF_DOUBLE
#define ARR_SIZE (SIZEOF_StgArrWords + DOUBLE_MANTISSA_SIZE)
RET_NNP(W_[mp_tmp_w], TO_W_(MP_INT__mp_size(mp_tmp1)), p);
}
+decodeDoublezu2Intzh_fast
+{
+ D_ arg;
+ W_ p;
+ FETCH_MP_TEMP(mp_tmp1);
+ FETCH_MP_TEMP(mp_tmp2);
+ FETCH_MP_TEMP(mp_tmp_w);
+
+ /* arguments: D1 = Double# */
+ arg = D1;
+
+ /* Perform the operation */
+ foreign "C" __decodeDouble_2Int(mp_tmp1 "ptr", mp_tmp2 "ptr", mp_tmp_w "ptr", arg) [];
+
+ /* returns: (Int# (mant high), Int# (mant low), Int# (expn)) */
+ RET_NNN(W_[mp_tmp1], W_[mp_tmp2], W_[mp_tmp_w]);
+}
+
/* -----------------------------------------------------------------------------
* Concurrency primitives
* -------------------------------------------------------------------------- */
("ptr" threadid) = foreign "C" createIOThread( MyCapability() "ptr",
RtsFlags_GcFlags_initialStkSize(RtsFlags),
closure "ptr") [];
+
+ /* start blocked if the current thread is blocked */
+ StgTSO_flags(threadid) =
+ StgTSO_flags(threadid) | (StgTSO_flags(CurrentTSO) &
+ (TSO_BLOCKEX::I32 | TSO_INTERRUPTIBLE::I32));
+
foreign "C" scheduleThread(MyCapability() "ptr", threadid "ptr") [];
// switch at the earliest opportunity
("ptr" threadid) = foreign "C" createIOThread( MyCapability() "ptr",
RtsFlags_GcFlags_initialStkSize(RtsFlags),
closure "ptr") [];
+
+ /* start blocked if the current thread is blocked */
+ StgTSO_flags(threadid) =
+ StgTSO_flags(threadid) | (StgTSO_flags(CurrentTSO) &
+ (TSO_BLOCKEX::I32 | TSO_INTERRUPTIBLE::I32));
+
foreign "C" scheduleThreadOn(MyCapability() "ptr", cpu, threadid "ptr") [];
// switch at the earliest opportunity
{
/* args: R1 = MVar closure */
- if (GET_INFO(R1) == stg_EMPTY_MVAR_info) {
+ if (StgMVar_value(R1) == stg_END_TSO_QUEUE_closure) {
RET_N(1);
} else {
RET_N(0);
ALLOC_PRIM ( SIZEOF_StgMVar, NO_PTRS, newMVarzh_fast );
mvar = Hp - SIZEOF_StgMVar + WDS(1);
- SET_HDR(mvar,stg_EMPTY_MVAR_info,W_[CCCS]);
+ SET_HDR(mvar,stg_MVAR_DIRTY_info,W_[CCCS]);
+ // MVARs start dirty: generation 0 has no mutable list
StgMVar_head(mvar) = stg_END_TSO_QUEUE_closure;
StgMVar_tail(mvar) = stg_END_TSO_QUEUE_closure;
StgMVar_value(mvar) = stg_END_TSO_QUEUE_closure;
#else
info = GET_INFO(mvar);
#endif
+
+ if (info == stg_MVAR_CLEAN_info) {
+ foreign "C" dirty_MVAR(BaseReg "ptr", mvar "ptr");
+ }
/* If the MVar is empty, put ourselves on its blocking queue,
* and wait until we're woken up.
*/
- if (info == stg_EMPTY_MVAR_info) {
+ if (StgMVar_value(mvar) == stg_END_TSO_QUEUE_closure) {
if (StgMVar_head(mvar) == stg_END_TSO_QUEUE_closure) {
StgMVar_head(mvar) = CurrentTSO;
} else {
}
#if defined(THREADED_RTS)
- unlockClosure(mvar, stg_FULL_MVAR_info);
+ unlockClosure(mvar, stg_MVAR_DIRTY_info);
+#else
+ SET_INFO(mvar,stg_MVAR_DIRTY_info);
#endif
RET_P(val);
}
StgMVar_value(mvar) = stg_END_TSO_QUEUE_closure;
#if defined(THREADED_RTS)
- unlockClosure(mvar, stg_EMPTY_MVAR_info);
+ unlockClosure(mvar, stg_MVAR_DIRTY_info);
#else
- SET_INFO(mvar,stg_EMPTY_MVAR_info);
+ SET_INFO(mvar,stg_MVAR_DIRTY_info);
#endif
RET_P(val);
info = GET_INFO(mvar);
#endif
- if (info == stg_EMPTY_MVAR_info) {
+ if (StgMVar_value(mvar) == stg_END_TSO_QUEUE_closure) {
#if defined(THREADED_RTS)
- unlockClosure(mvar, stg_EMPTY_MVAR_info);
+ unlockClosure(mvar, info);
#endif
/* HACK: we need a pointer to pass back,
* so we abuse NO_FINALIZER_closure
RET_NP(0, stg_NO_FINALIZER_closure);
}
+ if (info == stg_MVAR_CLEAN_info) {
+ foreign "C" dirty_MVAR(BaseReg "ptr", mvar "ptr");
+ }
+
/* we got the value... */
val = StgMVar_value(mvar);
StgMVar_tail(mvar) = stg_END_TSO_QUEUE_closure;
}
#if defined(THREADED_RTS)
- unlockClosure(mvar, stg_FULL_MVAR_info);
+ unlockClosure(mvar, stg_MVAR_DIRTY_info);
+#else
+ SET_INFO(mvar,stg_MVAR_DIRTY_info);
#endif
}
else
/* No further putMVars, MVar is now empty */
StgMVar_value(mvar) = stg_END_TSO_QUEUE_closure;
#if defined(THREADED_RTS)
- unlockClosure(mvar, stg_EMPTY_MVAR_info);
+ unlockClosure(mvar, stg_MVAR_DIRTY_info);
#else
- SET_INFO(mvar,stg_EMPTY_MVAR_info);
+ SET_INFO(mvar,stg_MVAR_DIRTY_info);
#endif
}
info = GET_INFO(mvar);
#endif
- if (info == stg_FULL_MVAR_info) {
+ if (info == stg_MVAR_CLEAN_info) {
+ foreign "C" dirty_MVAR(BaseReg "ptr", mvar "ptr");
+ }
+
+ if (StgMVar_value(mvar) != stg_END_TSO_QUEUE_closure) {
if (StgMVar_head(mvar) == stg_END_TSO_QUEUE_closure) {
StgMVar_head(mvar) = CurrentTSO;
} else {
}
#if defined(THREADED_RTS)
- unlockClosure(mvar, stg_EMPTY_MVAR_info);
+ unlockClosure(mvar, stg_MVAR_DIRTY_info);
+#else
+ SET_INFO(mvar,stg_MVAR_DIRTY_info);
#endif
jump %ENTRY_CODE(Sp(0));
}
StgMVar_value(mvar) = R2;
#if defined(THREADED_RTS)
- unlockClosure(mvar, stg_FULL_MVAR_info);
+ unlockClosure(mvar, stg_MVAR_DIRTY_info);
#else
- SET_INFO(mvar,stg_FULL_MVAR_info);
+ SET_INFO(mvar,stg_MVAR_DIRTY_info);
#endif
jump %ENTRY_CODE(Sp(0));
}
info = GET_INFO(mvar);
#endif
- if (info == stg_FULL_MVAR_info) {
+ if (StgMVar_value(mvar) != stg_END_TSO_QUEUE_closure) {
#if defined(THREADED_RTS)
- unlockClosure(mvar, stg_FULL_MVAR_info);
+ unlockClosure(mvar, info);
#endif
RET_N(0);
}
+ if (info == stg_MVAR_CLEAN_info) {
+ foreign "C" dirty_MVAR(BaseReg "ptr", mvar "ptr");
+ }
+
if (StgMVar_head(mvar) != stg_END_TSO_QUEUE_closure) {
/* There are takeMVar(s) waiting: wake up the first one
}
#if defined(THREADED_RTS)
- unlockClosure(mvar, stg_EMPTY_MVAR_info);
+ unlockClosure(mvar, stg_MVAR_DIRTY_info);
+#else
+ SET_INFO(mvar,stg_MVAR_DIRTY_info);
#endif
}
else
StgMVar_value(mvar) = R2;
#if defined(THREADED_RTS)
- unlockClosure(mvar, stg_FULL_MVAR_info);
+ unlockClosure(mvar, stg_MVAR_DIRTY_info);
#else
- SET_INFO(mvar,stg_FULL_MVAR_info);
+ SET_INFO(mvar,stg_MVAR_DIRTY_info);
#endif
}
{
/* args: R1 */
#ifdef THREADED_RTS
- foreign "C" barf("waitRead# on threaded RTS");
+ foreign "C" barf("waitRead# on threaded RTS") never returns;
#else
ASSERT(StgTSO_why_blocked(CurrentTSO) == NotBlocked::I16);
{
/* args: R1 */
#ifdef THREADED_RTS
- foreign "C" barf("waitWrite# on threaded RTS");
+ foreign "C" barf("waitWrite# on threaded RTS") never returns;
#else
ASSERT(StgTSO_why_blocked(CurrentTSO) == NotBlocked::I16);
#endif
#ifdef THREADED_RTS
- foreign "C" barf("delay# on threaded RTS");
+ foreign "C" barf("delay# on threaded RTS") never returns;
#else
/* args: R1 (microsecond delay amount) */
CInt reqID;
#ifdef THREADED_RTS
- foreign "C" barf("asyncRead# on threaded RTS");
+ foreign "C" barf("asyncRead# on threaded RTS") never returns;
#else
/* args: R1 = fd, R2 = isSock, R3 = len, R4 = buf */
CInt reqID;
#ifdef THREADED_RTS
- foreign "C" barf("asyncWrite# on threaded RTS");
+ foreign "C" barf("asyncWrite# on threaded RTS") never returns;
#else
/* args: R1 = fd, R2 = isSock, R3 = len, R4 = buf */
CInt reqID;
#ifdef THREADED_RTS
- foreign "C" barf("asyncDoProc# on threaded RTS");
+ foreign "C" barf("asyncDoProc# on threaded RTS") never returns;
#else
/* args: R1 = proc, R2 = param */