-/* -*- mode: hugs-c; -*- */
+
/* --------------------------------------------------------------------------
* Bytecode assembler
*
* Copyright (c) 1994-1998.
*
* $RCSfile: Assembler.c,v $
- * $Revision: 1.2 $
- * $Date: 1998/12/02 13:28:09 $
+ * $Revision: 1.26 $
+ * $Date: 2000/04/14 15:18:06 $
*
* This module provides functions to construct BCOs and other closures
* required by the bytecode compiler.
#include "Bytecodes.h"
#include "Printer.h"
#include "Disassembler.h"
-#include "Evaluator.h"
#include "StgMiscClosures.h"
#include "Storage.h"
+#include "Schedule.h"
+#include "Evaluator.h"
#define INSIDE_ASSEMBLER_C
#include "Assembler.h"
* Queues (of instructions, ptrs, nonptrs)
* ------------------------------------------------------------------------*/
-/* ToDo: while debugging, we use a chunk size of 1 to stress-test the code
- * this should be fine-tuned using statistics on common sizes
- */
-
-#define InstrsChunkSize 40
-#define PtrsChunkSize 10
-#define RefsChunkSize 10
-#define NonPtrsChunkSize 10
-
#define Queue Instrs
-#define Type StgNat8
+#define Type StgWord8
+#define MAKE_findIn 0
#include "QueueTemplate.h"
+#undef MAKE_findIn
#undef Type
#undef Queue
#define Queue Ptrs
#define Type AsmObject
+#define MAKE_findIn 0
#include "QueueTemplate.h"
+#undef MAKE_findIn
#undef Type
#undef Queue
#define Queue Refs
#define Type AsmRef
+#define MAKE_findIn 0
#include "QueueTemplate.h"
+#undef MAKE_findIn
#undef Type
#undef Queue
#define Queue NonPtrs
#define Type StgWord
+#define MAKE_findIn 1
#include "QueueTemplate.h"
+#undef MAKE_findIn
#undef Type
#undef Queue
struct AsmBCO_ {
struct AsmObject_ object; /* must be first in struct */
-
+
Instrs is;
NonPtrs nps;
+ int /*StgExpr*/ stgexpr;
+
/* abstract machine ("executed" during compilation) */
AsmSp sp; /* stack ptr */
AsmSp max_sp;
- StgWord hp; /* heap ptr */
- StgWord max_hp;
+ Instr lastOpc;
};
static void asmResolveRef( AsmObject obj, AsmNat i, AsmClosure reference )
case CONSTR:
{
StgClosure* con = stgCast(StgClosure*,obj->closure);
- ASSERT(i < get_itbl(con)->layout.payload.nptrs && payloadCPtr(con,i) == NULL);
- payloadCPtr(con,i) = reference;
+ ASSERT(i < get_itbl(con)->layout.payload.nptrs && con->payload[i] == NULL);
+ con->payload[i] = reference;
break;
}
case AP_UPD:
ASSERT(ap->fun == NULL);
ap->fun = reference;
} else {
- ASSERT(payloadCPtr(ap,i-1) == NULL);
- payloadCPtr(ap,i-1) = reference;
+ ASSERT(ap->payload[i-1] == NULL);
+ ap->payload[i-1] = (StgPtr)reference;
}
break;
}
barf("asmResolveRef");
}
obj->num_unresolved -= 1;
-
- if (obj->num_unresolved == 0) {
- /* todo: free the queues */
-
- /* we don't print until all ptrs are resolved */
- IF_DEBUG(codegen,printObj(obj->closure));
- }
}
static void asmAddRef( AsmObject referent, AsmObject referer, AsmNat i )
obj->closure = c;
mapQueue(Ptrs, AsmObject, obj->ptrs, asmAddRef(x,obj,i));
mapQueue(Refs, AsmRef, obj->refs, asmResolveRef(x.ref,x.i,c));
+
if (obj->num_unresolved == 0) {
- /* todo: free the queues */
+ freePtrs(&obj->ptrs);
+ freeRefs(&obj->refs);
/* we don't print until all ptrs are resolved */
IF_DEBUG(codegen,printObj(obj->closure));
}
return o;
}
-static void grabHpUpd( AsmBCO bco, nat size )
-{
- /* ToDo: sometimes we should test for MIN_UPD_SIZE instead */
- ASSERT( size >= MIN_UPD_SIZE + sizeofW(StgHeader) );
- bco->hp += size;
-}
-
-static void grabHpNonUpd( AsmBCO bco, nat size )
+static void setSp( AsmBCO bco, AsmSp sp )
{
- /* ToDo: sometimes we should test for MIN_UPD_SIZE instead */
- ASSERT( size >= MIN_NONUPD_SIZE + sizeofW(StgHeader) );
- bco->hp += size;
+ bco->max_sp = stg_max(bco->sp,bco->max_sp);
+ bco->sp = sp;
+ bco->max_sp = stg_max(bco->sp,bco->max_sp);
}
-static void resetHp( AsmBCO bco, nat hp )
+static void incSp ( AsmBCO bco, int sp_delta )
{
- bco->max_hp = stg_max(bco->hp,bco->max_hp);
- bco->hp = hp;
+ bco->max_sp = stg_max(bco->sp,bco->max_sp);
+ bco->sp += sp_delta;
+ bco->max_sp = stg_max(bco->sp,bco->max_sp);
}
-static void resetSp( AsmBCO bco, AsmSp sp )
+static void decSp ( AsmBCO bco, int sp_delta )
{
- bco->max_sp = stg_max(bco->sp,bco->max_sp);
- bco->sp = sp;
+ bco->max_sp = stg_max(bco->sp,bco->max_sp);
+ bco->sp -= sp_delta;
+ bco->max_sp = stg_max(bco->sp,bco->max_sp);
}
/* --------------------------------------------------------------------------
StgClosure* c = asmAlloc(CONSTR_sizeW(p,np));
StgClosure* o = stgCast(StgClosure*,c);
SET_HDR(o,con->info,??);
- mapQueue(Ptrs, AsmObject, con->object.ptrs, payloadCPtr(o,i) = NULL);
- { nat i; for( i=0; i<np; ++i ) { payloadWord(o,p+i) = 0xdeadbeef; } }
+ mapQueue(Ptrs, AsmObject, con->object.ptrs, o->payload[i] = NULL);
+ { nat i; for( i=0; i<np; ++i ) { o->payload[p+i] = (StgClosure *)0xdeadbeef; }}
asmEndObject(&con->object,c);
}
o->body = NULL;
o->value = stgCast(StgClosure*,0xdeadbeef);
o->link = stgCast(StgCAF*,0xdeadbeef);
+ o->mut_link = NULL;
asmAddPtr(&caf->object,&body->object);
asmEndObject(&caf->object,c);
}
-AsmBCO asmBeginBCO( void )
+AsmBCO asmBeginBCO( int /*StgExpr*/ e )
{
AsmBCO bco = malloc(sizeof(struct AsmBCO_));
if (bco == NULL) {
initInstrs(&bco->is);
initNonPtrs(&bco->nps);
+ bco->stgexpr = e;
bco->max_sp = bco->sp = 0;
- bco->max_hp = bco->hp = 0;
+ bco->lastOpc = i_INTERNAL_ERROR;
return bco;
}
{
nat p = bco->object.ptrs.len;
nat np = bco->nps.len;
-#if 0
- nat is = bco->is.len + 4; /* 4 for stack and heap checks */
-#else
- nat is = bco->is.len + 2; /* 4 for stack check */
-#endif
+ nat is = bco->is.len + (bco->max_sp <= 255 ? 2 : 3); /* 2 or 3 for stack check */
StgClosure* c = asmAlloc(BCO_sizeW(p,np,is));
StgBCO* o = stgCast(StgBCO*,c);
o->n_ptrs = p;
o->n_words = np;
o->n_instrs = is;
+ o->stgexpr = bco->stgexpr;
mapQueue(Ptrs, AsmObject, bco->object.ptrs, bcoConstCPtr(o,i) = NULL);
mapQueue(NonPtrs, StgWord, bco->nps, bcoConstWord(o,i) = x);
{
nat j = 0;
bco->max_sp = stg_max(bco->sp,bco->max_sp);
- bco->max_hp = stg_max(bco->hp,bco->max_hp);
- bcoInstr(o,j++) = i_STK_CHECK;
- bcoInstr(o,j++) = bco->max_sp;
-#if 0
- bcoInstr(o,j++) = i_HP_CHECK;
- bcoInstr(o,j++) = bco->max_hp;
-#endif
- mapQueue(Instrs, StgNat8, bco->is, bcoInstr(o,j++) = x);
+
+ ASSERT(bco->max_sp <= 65535);
+ if (bco->max_sp <= 255) {
+ bcoInstr(o,j++) = i_STK_CHECK;
+ bcoInstr(o,j++) = bco->max_sp;
+ } else {
+ bcoInstr(o,j++) = i_STK_CHECK_big;
+ bcoInstr(o,j++) = bco->max_sp / 256;
+ bcoInstr(o,j++) = bco->max_sp % 256;
+ }
+
+ mapQueue(Instrs, StgWord8, bco->is, bcoInstr(o,j++) = x);
ASSERT(j == is);
}
+ freeInstrs(&bco->is);
+ freeNonPtrs(&bco->nps);
asmEndObject(&bco->object,c);
}
*
* ------------------------------------------------------------------------*/
-static void asmInstr( AsmBCO bco, StgWord i )
+static void asmInstrOp ( AsmBCO bco, StgWord i )
{
+ ASSERT(i <= BIGGEST_OPCODE); /* must be a valid opcode */
+ bco->lastOpc = i;
+ insertInstrs(&(bco->is),i);
+}
+
+static void asmInstr8 ( AsmBCO bco, StgWord i )
+{
+ if (i >= 256) {
ASSERT(i < 256); /* must be a byte */
+ }
insertInstrs(&(bco->is),i);
}
+static void asmInstr16 ( AsmBCO bco, StgWord i )
+{
+ ASSERT(i < 65536); /* must be a short */
+ insertInstrs(&(bco->is),i / 256);
+ insertInstrs(&(bco->is),i % 256);
+}
+
+static Instr asmInstrBack ( AsmBCO bco, StgWord n )
+{
+ return bco->is.elems[bco->is.len - n];
+}
+
+static void asmInstrRecede ( AsmBCO bco, StgWord n )
+{
+ if (bco->is.len < n) barf("asmInstrRecede");
+ bco->is.len -= n;
+}
+
static void asmPtr( AsmBCO bco, AsmObject x )
{
insertPtrs( &bco->object.ptrs, x );
insertNonPtrs( &bco->nps, i );
}
+static int asmFindInNonPtrs ( AsmBCO bco, StgWord i )
+{
+ return findInNonPtrs ( &bco->nps, i );
+}
+
#define asmWords(bco,ty,x) \
{ \
union { ty a; AsmWord b[sizeofW(ty)]; } p; \
nat i; \
+ if (sizeof(ty) < sizeof(AsmWord)) p.b[0]=0; \
p.a = x; \
for( i = 0; i < sizeofW(ty); i++ ) { \
asmWord(bco,p.b[i]); \
case CHAR_REP: return sizeofW(StgWord) + sizeofW(StgChar);
case BOOL_REP:
- case INT_REP: return sizeofW(StgWord) + sizeofW(StgInt);
-#ifdef PROVIDE_INT64
- case INT64_REP: return sizeofW(StgWord) + sizeofW(StgInt64);
-#endif
-#ifdef PROVIDE_WORD
- case WORD_REP: return sizeofW(StgWord) + sizeofW(StgWord);
-#endif
-#ifdef PROVIDE_ADDR
- case ADDR_REP: return sizeofW(StgWord) + sizeofW(StgAddr);
-#endif
- case FLOAT_REP: return sizeofW(StgWord) + sizeofW(StgFloat);
- case DOUBLE_REP: return sizeofW(StgWord) + sizeofW(StgDouble);
-#ifdef PROVIDE_STABLE
- case STABLE_REP: return sizeofW(StgWord) + sizeofW(StgWord);
-#endif
+ case INT_REP: return sizeofW(StgWord) + sizeofW(StgInt);
+ case THREADID_REP:
+ case WORD_REP: return sizeofW(StgWord) + sizeofW(StgWord);
+ case ADDR_REP: return sizeofW(StgWord) + sizeofW(StgAddr);
+ case FLOAT_REP: return sizeofW(StgWord) + sizeofW(StgFloat);
+ case DOUBLE_REP: return sizeofW(StgWord) + sizeofW(StgDouble);
+ case STABLE_REP: return sizeofW(StgWord) + sizeofW(StgWord);
-#ifdef PROVIDE_INTEGER
case INTEGER_REP:
-#endif
#ifdef PROVIDE_WEAK
case WEAK_REP:
#endif
case ALPHA_REP: /* a */
case BETA_REP: /* b */
case GAMMA_REP: /* c */
+ case DELTA_REP: /* d */
case HANDLER_REP: /* IOError -> IO a */
case ERROR_REP: /* IOError */
-#ifdef PROVIDE_ARRAY
case ARR_REP : /* PrimArray a */
case BARR_REP : /* PrimByteArray a */
case REF_REP : /* Ref s a */
case MUTARR_REP : /* PrimMutableArray s a */
case MUTBARR_REP: /* PrimMutableByteArray s a */
-#endif
-#ifdef PROVIDE_CONCURRENT
- case THREADID_REP: /* ThreadId */
case MVAR_REP: /* MVar a */
-#endif
case PTR_REP: return sizeofW(StgPtr);
case VOID_REP: return sizeofW(StgWord);
}
}
+
+int asmRepSizeW ( AsmRep rep )
+{
+ return repSizeW ( rep );
+}
+
+
+/* --------------------------------------------------------------------------
+ * Instruction emission. All instructions should be routed through here
+ * so that the peephole optimiser gets to see what's happening.
+ * ------------------------------------------------------------------------*/
+
+static void emiti_ ( AsmBCO bco, Instr opcode )
+{
+ StgInt x, y;
+ if (bco->lastOpc == i_SLIDE && opcode == i_ENTER) {
+ /* SLIDE x y ; ENTER ===> SE x y */
+ x = asmInstrBack(bco,2);
+ y = asmInstrBack(bco,1);
+ asmInstrRecede(bco,3);
+ asmInstrOp(bco,i_SE); asmInstr8(bco,x); asmInstr8(bco,y);
+ }
+ else
+ if (bco->lastOpc == i_RV && opcode == i_ENTER) {
+ /* RV x y ; ENTER ===> RVE x (y-2)
+ Because RETADDR pushes 2 words on the stack, y must be at least 2. */
+ x = asmInstrBack(bco,2);
+ y = asmInstrBack(bco,1);
+ if (y < 2) barf("emiti_: RVE: impossible y value");
+ asmInstrRecede(bco,3);
+ asmInstrOp(bco, i_RVE); asmInstr8(bco,x); asmInstr8(bco,y-2);
+ }
+ else {
+ asmInstrOp(bco,opcode);
+ }
+}
+
+static void emiti_8 ( AsmBCO bco, Instr opcode, int arg1 )
+{
+ StgInt x;
+ if (bco->lastOpc == i_VAR && opcode == i_VAR) {
+ /* VAR x ; VAR y ===> VV x y */
+ x = asmInstrBack(bco,1);
+ asmInstrRecede(bco,2);
+ asmInstrOp(bco,i_VV); asmInstr8(bco,x); asmInstr8(bco,arg1);
+ }
+ else
+ if (bco->lastOpc == i_RETADDR && opcode == i_VAR) {
+ /* RETADDR x ; VAR y ===> RV x y */
+ x = asmInstrBack(bco,1);
+ asmInstrRecede(bco,2);
+ asmInstrOp(bco, i_RV); asmInstr8(bco,x); asmInstr8(bco,arg1);
+ }
+ else {
+ asmInstrOp(bco,opcode);
+ asmInstr8(bco,arg1);
+ }
+}
+
+static void emiti_16 ( AsmBCO bco, Instr opcode, int arg1 )
+{
+ asmInstrOp(bco,opcode);
+ asmInstr16(bco,arg1);
+}
+
+static void emiti_8_8 ( AsmBCO bco, Instr opcode, int arg1, int arg2 )
+{
+ asmInstrOp(bco,opcode);
+ asmInstr8(bco,arg1);
+ asmInstr8(bco,arg2);
+}
+
+static void emiti_8_16 ( AsmBCO bco, Instr opcode, int arg1, int arg2 )
+{
+ asmInstrOp(bco,opcode);
+ asmInstr8(bco,arg1);
+ asmInstr16(bco,arg2);
+}
+
+static void emiti_16_16 ( AsmBCO bco, Instr opcode, int arg1, int arg2 )
+{
+ asmInstrOp(bco,opcode);
+ asmInstr16(bco,arg1);
+ asmInstr16(bco,arg2);
+}
+
+
+/* --------------------------------------------------------------------------
+ * Wrappers around the above fns
+ * ------------------------------------------------------------------------*/
+
+static void emit_i_VAR_INT ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_VAR_INT, arg1); else
+ emiti_16(bco,i_VAR_INT_big,arg1);
+}
+
+static void emit_i_VAR_WORD ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_VAR_WORD, arg1); else
+ emiti_16(bco,i_VAR_WORD_big,arg1);
+}
+
+static void emit_i_VAR_ADDR ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_VAR_ADDR, arg1); else
+ emiti_16(bco,i_VAR_ADDR_big,arg1);
+}
+
+static void emit_i_VAR_CHAR ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_VAR_CHAR, arg1); else
+ emiti_16(bco,i_VAR_CHAR_big,arg1);
+}
+
+static void emit_i_VAR_FLOAT ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_VAR_FLOAT, arg1); else
+ emiti_16(bco,i_VAR_FLOAT_big,arg1);
+}
+
+static void emit_i_VAR_DOUBLE ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_VAR_DOUBLE, arg1); else
+ emiti_16(bco,i_VAR_DOUBLE_big,arg1);
+}
+
+static void emit_i_VAR_STABLE ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_VAR_STABLE, arg1); else
+ emiti_16(bco,i_VAR_STABLE_big,arg1);
+}
+
+static void emit_i_VAR ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_VAR, arg1); else
+ emiti_16(bco,i_VAR_big,arg1);
+}
+
+static void emit_i_PACK ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_PACK, arg1); else
+ emiti_16(bco,i_PACK_big,arg1);
+}
+
+static void emit_i_SLIDE ( AsmBCO bco, int arg1, int arg2 )
+{
+ ASSERT(arg1 >= 0);
+ ASSERT(arg2 >= 0);
+ if (arg1 < 256 && arg2 < 256)
+ emiti_8_8 (bco,i_SLIDE, arg1,arg2); else
+ emiti_16_16(bco,i_SLIDE_big,arg1,arg2);
+}
+
+static void emit_i_MKAP ( AsmBCO bco, int arg1, int arg2 )
+{
+ ASSERT(arg1 >= 0);
+ ASSERT(arg2 >= 0);
+ if (arg1 < 256 && arg2 < 256)
+ emiti_8_8 (bco,i_MKAP, arg1,arg2); else
+ emiti_16_16(bco,i_MKAP_big,arg1,arg2);
+}
+
+
+static void emit_i_CONST_INT ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_CONST_INT, arg1); else
+ emiti_16(bco,i_CONST_INT_big,arg1);
+}
+
+static void emit_i_CONST_INTEGER ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_CONST_INTEGER, arg1); else
+ emiti_16(bco,i_CONST_INTEGER_big,arg1);
+}
+
+static void emit_i_CONST_ADDR ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_CONST_ADDR, arg1); else
+ emiti_16(bco,i_CONST_ADDR_big,arg1);
+}
+
+static void emit_i_CONST_CHAR ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_CONST_CHAR, arg1); else
+ emiti_16(bco,i_CONST_CHAR_big,arg1);
+}
+
+static void emit_i_CONST_FLOAT ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_CONST_FLOAT, arg1); else
+ emiti_16(bco,i_CONST_FLOAT_big,arg1);
+}
+
+static void emit_i_CONST_DOUBLE ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_CONST_DOUBLE, arg1); else
+ emiti_16(bco,i_CONST_DOUBLE_big,arg1);
+}
+
+static void emit_i_CONST ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_CONST, arg1); else
+ emiti_16(bco,i_CONST_big,arg1);
+}
+
+static void emit_i_RETADDR ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_RETADDR, arg1); else
+ emiti_16(bco,i_RETADDR_big,arg1);
+}
+
+static void emit_i_ALLOC_CONSTR ( AsmBCO bco, int arg1 )
+{
+ ASSERT(arg1 >= 0);
+ if (arg1 < 256)
+ emiti_8 (bco,i_ALLOC_CONSTR, arg1); else
+ emiti_16(bco,i_ALLOC_CONSTR_big,arg1);
+}
+
+
/* --------------------------------------------------------------------------
* Arg checks.
* ------------------------------------------------------------------------*/
{
nat args = bco->sp - last_arg;
if (args != 0) { /* optimisation */
- asmInstr(bco,i_ARG_CHECK);
- asmInstr(bco,args);
- grabHpNonUpd(bco,PAP_sizeW(args-1));
- resetHp(bco,0);
+ emiti_8(bco,i_ARG_CHECK,args);
}
}
AsmVar asmBind ( AsmBCO bco, AsmRep rep )
{
- bco->sp += repSizeW(rep);
+ incSp(bco,repSizeW(rep));
return bco->sp;
}
void asmVar ( AsmBCO bco, AsmVar v, AsmRep rep )
{
+ int offset;
+
+ if (rep == VOID_REP) {
+ emiti_(bco,i_VOID);
+ incSp(bco,repSizeW(rep));
+ return;
+ }
+
+ offset = bco->sp - v;
switch (rep) {
case BOOL_REP:
case INT_REP:
- asmInstr(bco,i_VAR_INT);
- break;
-#ifdef PROVIDE_INT64
- case INT64_REP:
- asmInstr(bco,i_VAR_INT64);
+ emit_i_VAR_INT(bco,offset);
break;
-#endif
-#ifdef PROVIDE_WORD
+ case THREADID_REP:
case WORD_REP:
- asmInstr(bco,i_VAR_WORD);
+ emit_i_VAR_WORD(bco,offset);
break;
-#endif
-#ifdef PROVIDE_ADDR
case ADDR_REP:
- asmInstr(bco,i_VAR_ADDR);
+ emit_i_VAR_ADDR(bco,offset);
break;
-#endif
case CHAR_REP:
- asmInstr(bco,i_VAR_CHAR);
+ emit_i_VAR_CHAR(bco,offset);
break;
case FLOAT_REP:
- asmInstr(bco,i_VAR_FLOAT);
+ emit_i_VAR_FLOAT(bco,offset);
break;
case DOUBLE_REP:
- asmInstr(bco,i_VAR_DOUBLE);
+ emit_i_VAR_DOUBLE(bco,offset);
break;
-#ifdef PROVIDE_STABLE
case STABLE_REP:
- asmInstr(bco,i_VAR_STABLE);
+ emit_i_VAR_STABLE(bco,offset);
break;
-#endif
-#ifdef PROVIDE_INTEGER
case INTEGER_REP:
-#endif
#ifdef PROVIDE_WEAK
case WEAK_REP:
#endif
case ALPHA_REP: /* a */
case BETA_REP: /* b */
case GAMMA_REP: /* c */
+ case DELTA_REP: /* d */
case HANDLER_REP: /* IOError -> IO a */
case ERROR_REP: /* IOError */
-#ifdef PROVIDE_ARRAY
case ARR_REP : /* PrimArray a */
case BARR_REP : /* PrimByteArray a */
case REF_REP : /* Ref s a */
case MUTARR_REP : /* PrimMutableArray s a */
case MUTBARR_REP: /* PrimMutableByteArray s a */
-#endif
-#ifdef PROVIDE_CONCURRENT
- case THREADID_REP: /* ThreadId */
case MVAR_REP: /* MVar a */
-#endif
case PTR_REP:
- asmInstr(bco,i_VAR);
+ emit_i_VAR(bco,offset);
break;
-
- case VOID_REP:
- asmInstr(bco,i_VOID);
- bco->sp += repSizeW(rep);
- return; /* NB we don't break! */
default:
barf("asmVar %d",rep);
}
- asmInstr(bco,bco->sp - v);
- bco->sp += repSizeW(rep);
+ incSp(bco,repSizeW(rep));
}
/* --------------------------------------------------------------------------
int y = sp1 - sp2;
ASSERT(x >= 0 && y >= 0);
if (y != 0) {
- asmInstr(bco,i_SLIDE);
- asmInstr(bco,x);
- asmInstr(bco,y);
- bco->sp -= sp1 - sp2;
+ emit_i_SLIDE(bco,x,y);
+ decSp(bco,sp1 - sp2);
}
- asmInstr(bco,i_ENTER);
+ emiti_(bco,i_ENTER);
+ decSp(bco,sizeofW(StgPtr));
}
/* --------------------------------------------------------------------------
{
switch (rep) {
case CHAR_REP:
- asmInstr(bco,i_PACK_CHAR);
- grabHpNonUpd(bco,CZh_sizeW);
+ emiti_(bco,i_PACK_CHAR);
break;
case INT_REP:
- asmInstr(bco,i_PACK_INT);
- grabHpNonUpd(bco,IZh_sizeW);
+ emiti_(bco,i_PACK_INT);
break;
-#ifdef PROVIDE_INT64
- case INT64_REP:
- asmInstr(bco,i_PACK_INT64);
- grabHpNonUpd(bco,I64Zh_sizeW);
- break;
-#endif
-#ifdef PROVIDE_WORD
+ case THREADID_REP:
case WORD_REP:
- asmInstr(bco,i_PACK_WORD);
- grabHpNonUpd(bco,WZh_sizeW);
+ emiti_(bco,i_PACK_WORD);
break;
-#endif
-#ifdef PROVIDE_ADDR
case ADDR_REP:
- asmInstr(bco,i_PACK_ADDR);
- grabHpNonUpd(bco,AZh_sizeW);
+ emiti_(bco,i_PACK_ADDR);
break;
-#endif
case FLOAT_REP:
- asmInstr(bco,i_PACK_FLOAT);
- grabHpNonUpd(bco,FZh_sizeW);
+ emiti_(bco,i_PACK_FLOAT);
break;
case DOUBLE_REP:
- asmInstr(bco,i_PACK_DOUBLE);
- grabHpNonUpd(bco,DZh_sizeW);
+ emiti_(bco,i_PACK_DOUBLE);
break;
-#ifdef PROVIDE_STABLE
case STABLE_REP:
- asmInstr(bco,i_PACK_STABLE);
- grabHpNonUpd(bco,StableZh_sizeW);
+ emiti_(bco,i_PACK_STABLE);
break;
-#endif
default:
barf("asmBox %d",rep);
}
/* NB: these operations DO pop their arg */
- bco->sp -= repSizeW(rep); /* pop unboxed arg */
- bco->sp += sizeofW(StgPtr); /* push box */
+ decSp(bco, repSizeW(rep)); /* pop unboxed arg */
+ incSp(bco, sizeofW(StgPtr)); /* push box */
return bco->sp;
}
{
switch (rep) {
case INT_REP:
- asmInstr(bco,i_UNPACK_INT);
- break;
-#ifdef PROVIDE_INT64
- case INT64_REP:
- asmInstr(bco,i_UNPACK_INT64);
+ emiti_(bco,i_UNPACK_INT);
break;
-#endif
-#ifdef PROVIDE_WORD
+ case THREADID_REP:
case WORD_REP:
- asmInstr(bco,i_UNPACK_WORD);
+ emiti_(bco,i_UNPACK_WORD);
break;
-#endif
-#ifdef PROVIDE_ADDR
case ADDR_REP:
- asmInstr(bco,i_UNPACK_ADDR);
+ emiti_(bco,i_UNPACK_ADDR);
break;
-#endif
case CHAR_REP:
- asmInstr(bco,i_UNPACK_CHAR);
+ emiti_(bco,i_UNPACK_CHAR);
break;
case FLOAT_REP:
- asmInstr(bco,i_UNPACK_FLOAT);
+ emiti_(bco,i_UNPACK_FLOAT);
break;
case DOUBLE_REP:
- asmInstr(bco,i_UNPACK_DOUBLE);
+ emiti_(bco,i_UNPACK_DOUBLE);
break;
case STABLE_REP:
- asmInstr(bco,i_UNPACK_STABLE);
+ emiti_(bco,i_UNPACK_STABLE);
break;
-
default:
barf("asmUnbox %d",rep);
}
/* NB: these operations DO NOT pop their arg */
- bco->sp += repSizeW(rep); /* push unboxed arg */
+ incSp(bco, repSizeW(rep)); /* push unboxed arg */
return bco->sp;
}
-/* --------------------------------------------------------------------------
- * Return unboxed Ints, Floats, etc
- * ------------------------------------------------------------------------*/
-
-void asmReturnUnboxed( AsmBCO bco, AsmRep rep )
-{
- switch (rep) {
- case CHAR_REP:
- asmInstr(bco,i_RETURN_CHAR);
- break;
- case INT_REP:
- asmInstr(bco,i_RETURN_INT);
- break;
-#ifdef PROVIDE_INT64
- case INT64_REP:
- asmInstr(bco,i_RETURN_INT64);
- break;
-#endif
-#ifdef PROVIDE_WORD
- case WORD_REP:
- asmInstr(bco,i_RETURN_WORD);
- break;
-#endif
-#ifdef PROVIDE_ADDR
- case ADDR_REP:
- asmInstr(bco,i_RETURN_ADDR);
- break;
-#endif
- case FLOAT_REP:
- asmInstr(bco,i_RETURN_FLOAT);
- break;
- case DOUBLE_REP:
- asmInstr(bco,i_RETURN_DOUBLE);
- break;
-#ifdef PROVIDE_STABLE
- case STABLE_REP:
- asmInstr(bco,i_RETURN_STABLE);
- break;
-#endif
-#ifdef PROVIDE_INTEGER
- case INTEGER_REP:
-#endif
-#ifdef PROVIDE_WEAK
- case WEAK_REP:
-#endif
-#ifdef PROVIDE_FOREIGN
- case FOREIGN_REP:
-#endif
-#ifdef PROVIDE_ARRAY
- case ARR_REP : /* PrimArray a */
- case BARR_REP : /* PrimByteArray a */
- case REF_REP : /* Ref s a */
- case MUTARR_REP : /* PrimMutableArray s a */
- case MUTBARR_REP: /* PrimMutableByteArray s a */
-#endif
-#ifdef PROVIDE_CONCURRENT
- case THREADID_REP: /* ThreadId */
- case MVAR_REP: /* MVar a */
-#endif
- asmInstr(bco,i_RETURN_GENERIC);
- break;
- default:
- barf("asmReturnUnboxed %d",rep);
- }
-}
/* --------------------------------------------------------------------------
* Push unboxed Ints, Floats, etc
void asmConstInt( AsmBCO bco, AsmInt x )
{
- asmInstr(bco,i_CONST_INT);
- asmInstr(bco,bco->nps.len);
+ emit_i_CONST_INT(bco,bco->nps.len);
asmWords(bco,AsmInt,x);
- bco->sp += repSizeW(INT_REP);
-}
-
-#ifdef PROVIDE_INT64
-void asmConstInt64( AsmBCO bco, AsmInt64 x )
-{
- asmInstr(bco,i_CONST_INT64);
- asmInstr(bco,bco->nps.len);
- asmWords(bco,AsmInt64,x);
- bco->sp += repSizeW(INT64_REP);
+ incSp(bco, repSizeW(INT_REP));
}
-#endif
-#ifdef PROVIDE_INTEGER
void asmConstInteger( AsmBCO bco, AsmString x )
{
- asmInstr(bco,i_CONST_INTEGER);
- asmInstr(bco,bco->nps.len);
+ emit_i_CONST_INTEGER(bco,bco->nps.len);
asmWords(bco,AsmString,x);
- bco->sp += repSizeW(INTEGER_REP);
+ incSp(bco, repSizeW(INTEGER_REP));
}
-#endif
-#ifdef PROVIDE_ADDR
void asmConstAddr( AsmBCO bco, AsmAddr x )
{
- asmInstr(bco,i_CONST_ADDR);
- asmInstr(bco,bco->nps.len);
+ emit_i_CONST_ADDR(bco,bco->nps.len);
asmWords(bco,AsmAddr,x);
- bco->sp += repSizeW(ADDR_REP);
+ incSp(bco, repSizeW(ADDR_REP));
}
-#endif
-#ifdef PROVIDE_WORD
void asmConstWord( AsmBCO bco, AsmWord x )
{
- asmInstr(bco,i_CONST_INT);
- asmInstr(bco,bco->nps.len);
- asmWords(bco,AsmWord,x);
- bco->sp += repSizeW(WORD_REP);
+ emit_i_CONST_INT(bco,bco->nps.len);
+ asmWords(bco,AsmWord,(AsmInt)x);
+ incSp(bco, repSizeW(WORD_REP));
}
-#endif
void asmConstChar( AsmBCO bco, AsmChar x )
{
- asmInstr(bco,i_CONST_CHAR);
- asmInstr(bco,bco->nps.len);
+ emit_i_CONST_CHAR(bco,bco->nps.len);
asmWords(bco,AsmChar,x);
- bco->sp += repSizeW(CHAR_REP);
+ incSp(bco, repSizeW(CHAR_REP));
}
void asmConstFloat( AsmBCO bco, AsmFloat x )
{
- asmInstr(bco,i_CONST_FLOAT);
- asmInstr(bco,bco->nps.len);
+ emit_i_CONST_FLOAT(bco,bco->nps.len);
asmWords(bco,AsmFloat,x);
- bco->sp += repSizeW(FLOAT_REP);
+ incSp(bco, repSizeW(FLOAT_REP));
}
void asmConstDouble( AsmBCO bco, AsmDouble x )
{
- asmInstr(bco,i_CONST_DOUBLE);
- asmInstr(bco,bco->nps.len);
+ emit_i_CONST_DOUBLE(bco,bco->nps.len);
asmWords(bco,AsmDouble,x);
- bco->sp += repSizeW(DOUBLE_REP);
+ incSp(bco, repSizeW(DOUBLE_REP));
}
/* --------------------------------------------------------------------------
- *
+ * Algebraic case helpers
* ------------------------------------------------------------------------*/
/* a mildly bogus pair of functions... */
AsmSp asmContinuation( AsmBCO bco, AsmBCO ret_addr )
{
- asmInstr(bco,i_RETADDR);
- asmInstr(bco,bco->object.ptrs.len);
+ emit_i_RETADDR(bco,bco->object.ptrs.len);
asmPtr(bco,&(ret_addr->object));
- bco->sp += 2 * sizeofW(StgPtr);
+ incSp(bco, 2 * sizeofW(StgPtr));
return bco->sp;
}
-AsmBCO asmBeginContinuation ( AsmSp sp )
+AsmBCO asmBeginContinuation ( AsmSp sp, int /*List*/ alts )
{
- AsmBCO bco = asmBeginBCO();
- bco->sp = sp;
+ AsmBCO bco = asmBeginBCO(alts);
+ setSp(bco, sp);
return bco;
}
asmEndBCO(bco);
}
+
/* --------------------------------------------------------------------------
* Branches
* ------------------------------------------------------------------------*/
void asmEndAlt( AsmBCO bco, AsmSp sp )
{
-#if 0
- /* This warning is now redundant since we no longer use the hp/max_hp
- * information calculated by the assembler
- */
-#warning ToDo: adjust hp/max_hp in asmEndAlt
-#endif
- resetSp(bco,sp);
+ setSp(bco,sp);
}
AsmPc asmTest( AsmBCO bco, AsmWord tag )
{
- asmInstr(bco,i_TEST);
- asmInstr(bco,tag);
- asmInstr(bco,0);
+ emiti_8_16(bco,i_TEST,tag,0);
return bco->is.len;
}
{
asmVar(bco,v,INT_REP);
asmConstInt(bco,x);
- asmInstr(bco,i_TEST_INT);
- asmInstr(bco,0);
- bco->sp -= 2*repSizeW(INT_REP);
+ emiti_16(bco,i_TEST_INT,0);
+ decSp(bco, 2*repSizeW(INT_REP));
return bco->is.len;
}
{
int distance = bco->is.len - from;
ASSERT(distance >= 0);
- setInstrs(&(bco->is),from-1,distance);
+ ASSERT(distance < 65536);
+ setInstrs(&(bco->is),from-2,distance/256);
+ setInstrs(&(bco->is),from-1,distance%256);
}
void asmPanic( AsmBCO bco )
{
- asmInstr(bco,i_PANIC); /* "irrefutable" pattern failed - oops! */
+ emiti_(bco,i_PANIC); /* "irrefutable" pattern failed - oops! */
}
/* --------------------------------------------------------------------------
return bco->sp;
}
-void asmEndPrim( AsmBCO bco, const AsmPrim* prim, AsmSp base )
+void asmEndPrim( AsmBCO bco, const AsmPrim* prim, AsmSp base )
{
- asmInstr(bco,prim->prefix);
- asmInstr(bco,prim->opcode);
- bco->sp = base;
+ emiti_8(bco,prim->prefix,prim->opcode);
+ setSp(bco, base);
+}
+
+char* asmGetPrimopName ( AsmPrim* p )
+{
+ return p->name;
}
/* Hugs used to let you add arbitrary primops with arbitrary types
* We deliberately avoided that approach because we wanted more
* control over which primops are provided.
*/
-const AsmPrim asmPrimOps[] = {
+AsmPrim asmPrimOps[] = {
/* Char# operations */
{ "primGtChar", "CC", "B", MONAD_Id, i_PRIMOP1, i_gtChar }
, { "primOrInt", "II", "I", MONAD_Id, i_PRIMOP1, i_orInt }
, { "primXorInt", "II", "I", MONAD_Id, i_PRIMOP1, i_xorInt }
, { "primNotInt", "I", "I", MONAD_Id, i_PRIMOP1, i_notInt }
- , { "primShiftLInt", "IW", "I", MONAD_Id, i_PRIMOP1, i_shiftLInt }
- , { "primShiftRAInt", "IW", "I", MONAD_Id, i_PRIMOP1, i_shiftRAInt }
- , { "primShiftRLInt", "IW", "I", MONAD_Id, i_PRIMOP1, i_shiftRLInt }
-
-#ifdef PROVIDE_INT64
- /* Int64# operations */
- , { "primGtInt64", "zz", "B", MONAD_Id, i_PRIMOP1, i_gtInt64 }
- , { "primGeInt64", "zz", "B", MONAD_Id, i_PRIMOP1, i_geInt64 }
- , { "primEqInt64", "zz", "B", MONAD_Id, i_PRIMOP1, i_eqInt64 }
- , { "primNeInt64", "zz", "B", MONAD_Id, i_PRIMOP1, i_neInt64 }
- , { "primLtInt64", "zz", "B", MONAD_Id, i_PRIMOP1, i_ltInt64 }
- , { "primLeInt64", "zz", "B", MONAD_Id, i_PRIMOP1, i_leInt64 }
- , { "primMinInt64", "", "z", MONAD_Id, i_PRIMOP1, i_minInt64 }
- , { "primMaxInt64", "", "z", MONAD_Id, i_PRIMOP1, i_maxInt64 }
- , { "primPlusInt64", "zz", "z", MONAD_Id, i_PRIMOP1, i_plusInt64 }
- , { "primMinusInt64", "zz", "z", MONAD_Id, i_PRIMOP1, i_minusInt64 }
- , { "primTimesInt64", "zz", "z", MONAD_Id, i_PRIMOP1, i_timesInt64 }
- , { "primQuotInt64", "zz", "z", MONAD_Id, i_PRIMOP1, i_quotInt64 }
- , { "primRemInt64", "zz", "z", MONAD_Id, i_PRIMOP1, i_remInt64 }
- , { "primQuotRemInt64", "zz", "zz", MONAD_Id, i_PRIMOP1, i_quotRemInt64 }
- , { "primNegateInt64", "z", "z", MONAD_Id, i_PRIMOP1, i_negateInt64 }
-
- , { "primAndInt64", "zz", "z", MONAD_Id, i_PRIMOP1, i_andInt64 }
- , { "primOrInt64", "zz", "z", MONAD_Id, i_PRIMOP1, i_orInt64 }
- , { "primXorInt64", "zz", "z", MONAD_Id, i_PRIMOP1, i_xorInt64 }
- , { "primNotInt64", "z", "z", MONAD_Id, i_PRIMOP1, i_notInt64 }
- , { "primShiftLInt64", "zW", "z", MONAD_Id, i_PRIMOP1, i_shiftLInt64 }
- , { "primShiftRAInt64", "zW", "z", MONAD_Id, i_PRIMOP1, i_shiftRAInt64 }
- , { "primShiftRLInt64", "zW", "z", MONAD_Id, i_PRIMOP1, i_shiftRLInt64 }
-
- , { "primInt64ToInt", "z", "I", MONAD_Id, i_PRIMOP1, i_int64ToInt }
- , { "primIntToInt64", "I", "z", MONAD_Id, i_PRIMOP1, i_intToInt64 }
-#ifdef PROVIDE_WORD
- , { "primInt64ToWord", "z", "W", MONAD_Id, i_PRIMOP1, i_int64ToWord }
- , { "primWordToInt64", "W", "z", MONAD_Id, i_PRIMOP1, i_wordToInt64 }
-#endif
- , { "primInt64ToFloat", "z", "F", MONAD_Id, i_PRIMOP1, i_int64ToFloat }
- , { "primFloatToInt64", "F", "z", MONAD_Id, i_PRIMOP1, i_floatToInt64 }
- , { "primInt64ToDouble", "z", "D", MONAD_Id, i_PRIMOP1, i_int64ToDouble }
- , { "primDoubleToInt64", "D", "z", MONAD_Id, i_PRIMOP1, i_doubleToInt64 }
-#endif
+ , { "primShiftLInt", "II", "I", MONAD_Id, i_PRIMOP1, i_shiftLInt }
+ , { "primShiftRAInt", "II", "I", MONAD_Id, i_PRIMOP1, i_shiftRAInt }
+ , { "primShiftRLInt", "II", "I", MONAD_Id, i_PRIMOP1, i_shiftRLInt }
-#ifdef PROVIDE_WORD
/* Word# operations */
, { "primGtWord", "WW", "B", MONAD_Id, i_PRIMOP1, i_gtWord }
, { "primGeWord", "WW", "B", MONAD_Id, i_PRIMOP1, i_geWord }
, { "primIntToWord", "I", "W", MONAD_Id, i_PRIMOP1, i_intToWord }
, { "primWordToInt", "W", "I", MONAD_Id, i_PRIMOP1, i_wordToInt }
-#endif
-#ifdef PROVIDE_ADDR
/* Addr# operations */
, { "primGtAddr", "AA", "B", MONAD_Id, i_PRIMOP1, i_gtAddr }
, { "primGeAddr", "AA", "B", MONAD_Id, i_PRIMOP1, i_geAddr }
, { "primIndexCharOffAddr", "AI", "C", MONAD_Id, i_PRIMOP1, i_indexCharOffAddr }
, { "primIndexIntOffAddr", "AI", "I", MONAD_Id, i_PRIMOP1, i_indexIntOffAddr }
-#ifdef PROVIDE_INT64
- , { "primIndexInt64OffAddr", "AI", "z", MONAD_Id, i_PRIMOP1, i_indexInt64OffAddr }
-#endif
, { "primIndexWordOffAddr", "AI", "W", MONAD_Id, i_PRIMOP1, i_indexWordOffAddr }
, { "primIndexAddrOffAddr", "AI", "A", MONAD_Id, i_PRIMOP1, i_indexAddrOffAddr }
, { "primIndexFloatOffAddr", "AI", "F", MONAD_Id, i_PRIMOP1, i_indexFloatOffAddr }
, { "primIndexDoubleOffAddr", "AI", "D", MONAD_Id, i_PRIMOP1, i_indexDoubleOffAddr }
-#ifdef PROVIDE_STABLE
, { "primIndexStableOffAddr", "AI", "s", MONAD_Id, i_PRIMOP1, i_indexStableOffAddr }
-#endif
+
+ /* Stable# operations */
+ , { "primIntToStablePtr", "I", "s", MONAD_Id, i_PRIMOP1, i_intToStable }
+ , { "primStablePtrToInt", "s", "I", MONAD_Id, i_PRIMOP1, i_stableToInt }
/* These ops really ought to be in the IO monad */
, { "primReadCharOffAddr", "AI", "C", MONAD_ST, i_PRIMOP1, i_readCharOffAddr }
, { "primReadIntOffAddr", "AI", "I", MONAD_ST, i_PRIMOP1, i_readIntOffAddr }
-#ifdef PROVIDE_INT64
- , { "primReadInt64OffAddr", "AI", "z", MONAD_ST, i_PRIMOP1, i_readInt64OffAddr }
-#endif
, { "primReadWordOffAddr", "AI", "W", MONAD_ST, i_PRIMOP1, i_readWordOffAddr }
, { "primReadAddrOffAddr", "AI", "A", MONAD_ST, i_PRIMOP1, i_readAddrOffAddr }
, { "primReadFloatOffAddr", "AI", "F", MONAD_ST, i_PRIMOP1, i_readFloatOffAddr }
, { "primReadDoubleOffAddr", "AI", "D", MONAD_ST, i_PRIMOP1, i_readDoubleOffAddr }
-#ifdef PROVIDE_STABLE
, { "primReadStableOffAddr", "AI", "s", MONAD_ST, i_PRIMOP1, i_readStableOffAddr }
-#endif
/* These ops really ought to be in the IO monad */
, { "primWriteCharOffAddr", "AIC", "", MONAD_ST, i_PRIMOP1, i_writeCharOffAddr }
, { "primWriteIntOffAddr", "AII", "", MONAD_ST, i_PRIMOP1, i_writeIntOffAddr }
-#ifdef PROVIDE_INT64
- , { "primWriteInt64OffAddr", "AIz", "", MONAD_ST, i_PRIMOP1, i_writeInt64OffAddr }
-#endif
, { "primWriteWordOffAddr", "AIW", "", MONAD_ST, i_PRIMOP1, i_writeWordOffAddr }
, { "primWriteAddrOffAddr", "AIA", "", MONAD_ST, i_PRIMOP1, i_writeAddrOffAddr }
, { "primWriteFloatOffAddr", "AIF", "", MONAD_ST, i_PRIMOP1, i_writeFloatOffAddr }
, { "primWriteDoubleOffAddr", "AID", "", MONAD_ST, i_PRIMOP1, i_writeDoubleOffAddr }
-#ifdef PROVIDE_STABLE
, { "primWriteStableOffAddr", "AIs", "", MONAD_ST, i_PRIMOP1, i_writeStableOffAddr }
-#endif
-#endif /* PROVIDE_ADDR */
-
-#ifdef PROVIDE_INTEGER
/* Integer operations */
, { "primCompareInteger", "ZZ", "I", MONAD_Id, i_PRIMOP1, i_compareInteger }
, { "primNegateInteger", "Z", "Z", MONAD_Id, i_PRIMOP1, i_negateInteger }
, { "primDivModInteger", "ZZ", "ZZ", MONAD_Id, i_PRIMOP1, i_divModInteger }
, { "primIntegerToInt", "Z", "I", MONAD_Id, i_PRIMOP1, i_integerToInt }
, { "primIntToInteger", "I", "Z", MONAD_Id, i_PRIMOP1, i_intToInteger }
- , { "primIntegerToInt64", "Z", "z", MONAD_Id, i_PRIMOP1, i_integerToInt64 }
- , { "primInt64ToInteger", "z", "Z", MONAD_Id, i_PRIMOP1, i_int64ToInteger }
-#ifdef PROVIDE_WORD
, { "primIntegerToWord", "Z", "W", MONAD_Id, i_PRIMOP1, i_integerToWord }
, { "primWordToInteger", "W", "Z", MONAD_Id, i_PRIMOP1, i_wordToInteger }
-#endif
, { "primIntegerToFloat", "Z", "F", MONAD_Id, i_PRIMOP1, i_integerToFloat }
, { "primFloatToInteger", "F", "Z", MONAD_Id, i_PRIMOP1, i_floatToInteger }
, { "primIntegerToDouble", "Z", "D", MONAD_Id, i_PRIMOP1, i_integerToDouble }
, { "primDoubleToInteger", "D", "Z", MONAD_Id, i_PRIMOP1, i_doubleToInteger }
-#endif
/* Float# operations */
, { "primGtFloat", "FF", "B", MONAD_Id, i_PRIMOP1, i_gtFloat }
, { "primCoshFloat", "F", "F", MONAD_Id, i_PRIMOP1, i_coshFloat }
, { "primTanhFloat", "F", "F", MONAD_Id, i_PRIMOP1, i_tanhFloat }
, { "primPowerFloat", "FF", "F", MONAD_Id, i_PRIMOP1, i_powerFloat }
-#ifdef PROVIDE_INT64
- , { "primDecodeFloatz", "F", "zI", MONAD_Id, i_PRIMOP1, i_decodeFloatz }
- , { "primEncodeFloatz", "zI", "F", MONAD_Id, i_PRIMOP1, i_encodeFloatz }
-#endif
-#ifdef PROVIDE_INTEGER
, { "primDecodeFloatZ", "F", "ZI", MONAD_Id, i_PRIMOP1, i_decodeFloatZ }
, { "primEncodeFloatZ", "ZI", "F", MONAD_Id, i_PRIMOP1, i_encodeFloatZ }
-#endif
, { "primIsNaNFloat", "F", "B", MONAD_Id, i_PRIMOP1, i_isNaNFloat }
, { "primIsInfiniteFloat", "F", "B", MONAD_Id, i_PRIMOP1, i_isInfiniteFloat }
, { "primIsDenormalizedFloat", "F", "B", MONAD_Id, i_PRIMOP1, i_isDenormalizedFloat }
, { "primCoshDouble", "D", "D", MONAD_Id, i_PRIMOP1, i_coshDouble }
, { "primTanhDouble", "D", "D", MONAD_Id, i_PRIMOP1, i_tanhDouble }
, { "primPowerDouble", "DD", "D", MONAD_Id, i_PRIMOP1, i_powerDouble }
-#ifdef PROVIDE_INT64
- , { "primDecodeDoublez", "D", "zI", MONAD_Id, i_PRIMOP1, i_decodeDoublez }
- , { "primEncodeDoublez", "zI", "D", MONAD_Id, i_PRIMOP1, i_encodeDoublez }
-#endif
-#ifdef PROVIDE_INTEGER
, { "primDecodeDoubleZ", "D", "ZI", MONAD_Id, i_PRIMOP1, i_decodeDoubleZ }
, { "primEncodeDoubleZ", "ZI", "D", MONAD_Id, i_PRIMOP1, i_encodeDoubleZ }
-#endif
, { "primIsNaNDouble", "D", "B", MONAD_Id, i_PRIMOP1, i_isNaNDouble }
, { "primIsInfiniteDouble", "D", "B", MONAD_Id, i_PRIMOP1, i_isInfiniteDouble }
, { "primIsDenormalizedDouble", "D", "B", MONAD_Id, i_PRIMOP1, i_isDenormalizedDouble }
, { "primIsNegativeZeroDouble", "D", "B", MONAD_Id, i_PRIMOP1, i_isNegativeZeroDouble }
, { "primIsIEEEDouble", "", "B", MONAD_Id, i_PRIMOP1, i_isIEEEDouble }
-
- /* Polymorphic force :: a -> (# #) */
- , { "primForce", "a", "", MONAD_Id, i_PRIMOP2, i_force }
-
- /* Error operations - not in IO monad! */
- , { "primRaise", "E", "a", MONAD_Id, i_PRIMOP2, i_raise }
- , { "primCatch'", "aH", "a", MONAD_Id, i_PRIMOP2, i_catch }
-
-#ifdef PROVIDE_ARRAY
/* Ref operations */
, { "primNewRef", "a", "R", MONAD_ST, i_PRIMOP2, i_newRef }
, { "primWriteRef", "Ra", "", MONAD_ST, i_PRIMOP2, i_writeRef }
, { "primReadIntArray", "mI", "I", MONAD_ST, i_PRIMOP2, i_readIntArray }
, { "primIndexIntArray", "xI", "I", MONAD_Id, i_PRIMOP2, i_indexIntArray }
-#ifdef PROVIDE_INT64
- , { "primWriteInt64Array", "mIz", "", MONAD_ST, i_PRIMOP2, i_writeInt64Array }
- , { "primReadInt64Array", "mI", "z", MONAD_ST, i_PRIMOP2, i_readInt64Array }
- , { "primIndexInt64Array", "xI", "z", MONAD_Id, i_PRIMOP2, i_indexInt64Array }
-#endif
-
/* {new,write,read,index}IntegerArray not provided */
-#ifdef PROVIDE_WORD
, { "primWriteWordArray", "mIW", "", MONAD_ST, i_PRIMOP2, i_writeWordArray }
, { "primReadWordArray", "mI", "W", MONAD_ST, i_PRIMOP2, i_readWordArray }
, { "primIndexWordArray", "xI", "W", MONAD_Id, i_PRIMOP2, i_indexWordArray }
-#endif
-#ifdef PROVIDE_ADDR
, { "primWriteAddrArray", "mIA", "", MONAD_ST, i_PRIMOP2, i_writeAddrArray }
, { "primReadAddrArray", "mI", "A", MONAD_ST, i_PRIMOP2, i_readAddrArray }
, { "primIndexAddrArray", "xI", "A", MONAD_Id, i_PRIMOP2, i_indexAddrArray }
-#endif
, { "primWriteFloatArray", "mIF", "", MONAD_ST, i_PRIMOP2, i_writeFloatArray }
, { "primReadFloatArray", "mI", "F", MONAD_ST, i_PRIMOP2, i_readFloatArray }
, { "primIndexFloatArray", "xI", "F", MONAD_Id, i_PRIMOP2, i_indexFloatArray }
-
, { "primWriteDoubleArray" , "mID", "", MONAD_ST, i_PRIMOP2, i_writeDoubleArray }
, { "primReadDoubleArray", "mI", "D", MONAD_ST, i_PRIMOP2, i_readDoubleArray }
, { "primIndexDoubleArray", "xI", "D", MONAD_Id, i_PRIMOP2, i_indexDoubleArray }
-#ifdef PROVIDE_STABLE
+#if 0
+#ifdef PROVIDE_STABLE
, { "primWriteStableArray", "mIs", "", MONAD_ST, i_PRIMOP2, i_writeStableArray }
, { "primReadStableArray", "mI", "s", MONAD_ST, i_PRIMOP2, i_readStableArray }
, { "primIndexStableArray", "xI", "s", MONAD_Id, i_PRIMOP2, i_indexStableArray }
#endif
-
+#endif
/* {new,write,read,index}ForeignObjArray not provided */
-#endif PROVIDE_ARRAY
#ifdef PROVIDE_FOREIGN
/* ForeignObj# operations */
- , { "primMakeForeignObj", "A", "f", MONAD_IO, i_PRIMOP2, i_makeForeignObj }
+ , { "primMkForeignObj", "A", "f", MONAD_IO, i_PRIMOP2, i_mkForeignObj }
#endif
#ifdef PROVIDE_WEAK
/* WeakPair# operations */
, { "primMakeWeak", "bac", "w", MONAD_IO, i_PRIMOP2, i_makeWeak }
, { "primDeRefWeak", "w", "Ia", MONAD_IO, i_PRIMOP2, i_deRefWeak }
#endif
-#ifdef PROVIDE_STABLE
/* StablePtr# operations */
, { "primMakeStablePtr", "a", "s", MONAD_IO, i_PRIMOP2, i_makeStablePtr }
, { "primDeRefStablePtr", "s", "a", MONAD_IO, i_PRIMOP2, i_deRefStablePtr }
, { "primFreeStablePtr", "s", "", MONAD_IO, i_PRIMOP2, i_freeStablePtr }
-#endif
+
+ /* foreign export dynamic support */
+ , { "primCreateAdjThunkARCH", "sAC","A", MONAD_IO, i_PRIMOP2, i_createAdjThunkARCH }
+
+ /* misc handy hacks */
+ , { "primGetArgc", "", "I", MONAD_IO, i_PRIMOP2, i_getArgc }
+ , { "primGetArgv", "I", "A", MONAD_IO, i_PRIMOP2, i_getArgv }
+
#ifdef PROVIDE_PTREQUALITY
, { "primReallyUnsafePtrEquality", "aa", "B",MONAD_Id, i_PRIMOP2, i_reallyUnsafePtrEquality }
#endif
#endif
#ifdef PROVIDE_CONCURRENT
/* Concurrency operations */
- , { "primFork", "a", "T", MONAD_IO, i_PRIMOP2, i_fork }
+ , { "primForkIO", "a", "T", MONAD_IO, i_PRIMOP2, i_forkIO }
, { "primKillThread", "T", "", MONAD_IO, i_PRIMOP2, i_killThread }
- , { "primSameMVar", "rr", "B", MONAD_Id, i_PRIMOP2, i_sameMVar }
- , { "primNewMVar", "", "r", MONAD_IO, i_PRIMOP2, i_newMVar }
- , { "primTakeMVar", "r", "a", MONAD_IO, i_PRIMOP2, i_takeMVar }
- , { "primPutMVar", "ra", "", MONAD_IO, i_PRIMOP2, i_putMVar }
- , { "primDelay", "I", "", MONAD_IO, i_PRIMOP2, i_delay }
+ , { "primRaiseInThread", "TE", "", MONAD_IO, i_PRIMOP2, i_raiseInThread }
+
, { "primWaitRead", "I", "", MONAD_IO, i_PRIMOP2, i_waitRead }
, { "primWaitWrite", "I", "", MONAD_IO, i_PRIMOP2, i_waitWrite }
+ , { "primYield", "", "", MONAD_IO, i_PRIMOP2, i_yield } , { "primDelay", "I", "", MONAD_IO, i_PRIMOP2, i_delay }
+ , { "primGetThreadId", "", "T", MONAD_IO, i_PRIMOP2, i_getThreadId }
+ , { "primCmpThreadIds", "TT", "I", MONAD_Id, i_PRIMOP2, i_cmpThreadIds }
#endif
+ , { "primNewEmptyMVar", "", "r", MONAD_IO, i_PRIMOP2, i_newMVar }
+ /* primTakeMVar is handwritten bytecode */
+ , { "primPutMVar", "ra", "", MONAD_IO, i_PRIMOP2, i_putMVar }
+ , { "primSameMVar", "rr", "B", MONAD_Id, i_PRIMOP2, i_sameMVar }
+
/* Ccall is polyadic - so it's excluded from this table */
- , { 0,0,0,0 }
+ , { 0,0,0,0,0,0 }
};
-const AsmPrim ccall_Id = { "ccall", 0, 0, MONAD_IO, i_PRIMOP2, i_ccall_Id };
-const AsmPrim ccall_IO = { "ccall", 0, 0, MONAD_IO, i_PRIMOP2, i_ccall_IO };
+AsmPrim ccall_ccall_Id
+ = { "ccall", 0, 0, MONAD_IO, i_PRIMOP2, i_ccall_ccall_Id };
+AsmPrim ccall_ccall_IO
+ = { "ccall", 0, 0, MONAD_IO, i_PRIMOP2, i_ccall_ccall_IO };
+AsmPrim ccall_stdcall_Id
+ = { "ccall", 0, 0, MONAD_IO, i_PRIMOP2, i_ccall_stdcall_Id };
+AsmPrim ccall_stdcall_IO
+ = { "ccall", 0, 0, MONAD_IO, i_PRIMOP2, i_ccall_stdcall_IO };
-const AsmPrim* asmFindPrim( char* s )
+#ifdef DEBUG
+void checkBytecodeCount( void );
+void checkBytecodeCount( void )
+{
+ if (MAX_Primop1 >= 255) {
+ printf("Too many Primop1 bytecodes (%d)\n",MAX_Primop1);
+ }
+ if (MAX_Primop2 >= 255) {
+ printf("Too many Primop2 bytecodes (%d)\n",MAX_Primop2);
+ }
+}
+#endif
+
+AsmPrim* asmFindPrim( char* s )
{
int i;
for (i=0; asmPrimOps[i].name; ++i) {
return 0;
}
-const AsmPrim* asmFindPrimop( AsmInstr prefix, AsmInstr op )
+AsmPrim* asmFindPrimop( AsmInstr prefix, AsmInstr op )
{
nat i;
for (i=0; asmPrimOps[i].name; ++i) {
}
/* --------------------------------------------------------------------------
+ * Handwritten primops
+ * ------------------------------------------------------------------------*/
+
+AsmBCO asm_BCO_catch ( void )
+{
+ AsmBCO bco = asmBeginBCO(0 /*NIL*/);
+ emiti_8(bco,i_ARG_CHECK,2);
+ emiti_8(bco,i_PRIMOP1,i_pushcatchframe);
+ incSp(bco, (1-2)*sizeofW(StgPtr) + sizeofW(StgCatchFrame));
+ emiti_(bco,i_ENTER);
+ decSp(bco, sizeofW(StgPtr));
+ asmEndBCO(bco);
+ return bco;
+}
+
+AsmBCO asm_BCO_raise ( void )
+{
+ AsmBCO bco = asmBeginBCO(0 /*NIL*/);
+ emiti_8(bco,i_ARG_CHECK,1);
+ emiti_8(bco,i_PRIMOP2,i_raise);
+ decSp(bco,sizeofW(StgPtr));
+ asmEndBCO(bco);
+ return bco;
+}
+
+AsmBCO asm_BCO_seq ( void )
+{
+ AsmBCO eval, cont;
+
+ cont = asmBeginBCO(0 /*NIL*/);
+ emiti_8(cont,i_ARG_CHECK,2); /* should never fail */
+ emit_i_VAR(cont,1);
+ emit_i_SLIDE(cont,1,2);
+ emiti_(cont,i_ENTER);
+ incSp(cont, 3*sizeofW(StgPtr));
+ asmEndBCO(cont);
+
+ eval = asmBeginBCO(0 /*NIL*/);
+ emiti_8(eval,i_ARG_CHECK,2);
+ emit_i_RETADDR(eval,eval->object.ptrs.len);
+ asmPtr(eval,&(cont->object));
+ emit_i_VAR(eval,2);
+ emit_i_SLIDE(eval,3,1);
+ emiti_8(eval,i_PRIMOP1,i_pushseqframe);
+ emiti_(eval,i_ENTER);
+ incSp(eval, sizeofW(StgSeqFrame) + 4*sizeofW(StgPtr));
+ asmEndBCO(eval);
+
+ return eval;
+}
+
+AsmBCO asm_BCO_takeMVar ( void )
+{
+ AsmBCO kase, casecont, take;
+
+ take = asmBeginBCO(0 /*NIL*/);
+ emit_i_VAR(take,0);
+ emiti_8(take,i_PRIMOP2,i_takeMVar);
+ emit_i_VAR(take,3);
+ emit_i_VAR(take,1);
+ emit_i_VAR(take,4);
+ emit_i_SLIDE(take,3,4);
+ emiti_(take,i_ENTER);
+ incSp(take,20);
+ asmEndBCO(take);
+
+ casecont = asmBeginBCO(0 /*NIL*/);
+ emiti_(casecont,i_UNPACK);
+ emit_i_VAR(casecont,4);
+ emit_i_VAR(casecont,4);
+ emit_i_VAR(casecont,2);
+ emit_i_CONST(casecont,casecont->object.ptrs.len);
+ asmPtr(casecont,&(take->object));
+ emit_i_SLIDE(casecont,4,5);
+ emiti_(casecont,i_ENTER);
+ incSp(casecont,20);
+ asmEndBCO(casecont);
+
+ kase = asmBeginBCO(0 /*NIL*/);
+ emiti_8(kase,i_ARG_CHECK,3);
+ emit_i_RETADDR(kase,kase->object.ptrs.len);
+ asmPtr(kase,&(casecont->object));
+ emit_i_VAR(kase,2);
+ emiti_(kase,i_ENTER);
+ incSp(kase,20);
+ asmEndBCO(kase);
+
+ return kase;
+}
+
+
+/* --------------------------------------------------------------------------
* Heap manipulation
* ------------------------------------------------------------------------*/
AsmVar asmAllocCONSTR ( AsmBCO bco, AsmInfo info )
{
+ int i;
ASSERT( sizeW_fromITBL(info) >= MIN_NONUPD_SIZE + sizeofW(StgHeader) );
- asmInstr(bco,i_ALLOC_CONSTR);
- asmInstr(bco,bco->nps.len);
- asmWords(bco,AsmInfo,info);
- bco->sp += sizeofW(StgClosurePtr);
- grabHpNonUpd(bco,sizeW_fromITBL(info));
+
+ /* Look in this bco's collection of nonpointers (literals)
+ to see if the itbl pointer is already there. If so, re-use it. */
+ i = asmFindInNonPtrs ( bco, (StgWord)info );
+
+ if (i == -1) {
+ emit_i_ALLOC_CONSTR(bco,bco->nps.len);
+ asmWords(bco,AsmInfo,info);
+ } else {
+ emit_i_ALLOC_CONSTR(bco,i);
+ }
+
+ incSp(bco, sizeofW(StgClosurePtr));
return bco->sp;
}
void asmEndPack( AsmBCO bco, AsmVar v, AsmSp start, AsmInfo info )
{
nat size = bco->sp - start;
- ASSERT(bco->sp >= start);
- ASSERT(start >= v);
+ assert(bco->sp >= start);
+ assert(start >= v);
/* only reason to include info is for this assertion */
- ASSERT(info->layout.payload.ptrs == size);
- asmInstr(bco,i_PACK);
- asmInstr(bco,bco->sp - v);
- bco->sp = start;
+ assert(info->layout.payload.ptrs == size);
+ emit_i_PACK(bco, bco->sp - v);
+ setSp(bco, start);
}
void asmBeginUnpack( AsmBCO bco )
void asmEndUnpack( AsmBCO bco )
{
- asmInstr(bco,i_UNPACK);
+ emiti_(bco,i_UNPACK);
}
AsmVar asmAllocAP( AsmBCO bco, AsmNat words )
{
- asmInstr(bco,i_ALLOC_AP);
- asmInstr(bco,words);
- bco->sp += sizeofW(StgPtr);
- grabHpUpd(bco,AP_sizeW(words));
+ emiti_8(bco,i_ALLOC_AP,words);
+ incSp(bco, sizeofW(StgPtr));
return bco->sp;
}
void asmEndMkAP( AsmBCO bco, AsmVar v, AsmSp start )
{
- asmInstr(bco,i_MKAP);
- asmInstr(bco,bco->sp-v);
- asmInstr(bco,bco->sp-start-1); /* -1 because fun isn't counted */
- bco->sp = start;
+ emit_i_MKAP(bco,bco->sp-v,bco->sp-start-1);
+ /* -1 because fun isn't counted */
+ setSp(bco, start);
}
AsmVar asmAllocPAP( AsmBCO bco, AsmNat size )
{
- asmInstr(bco,i_ALLOC_PAP);
- asmInstr(bco,size);
- bco->sp += sizeofW(StgPtr);
+ emiti_8(bco,i_ALLOC_PAP,size);
+ incSp(bco, sizeofW(StgPtr));
return bco->sp;
}
void asmEndMkPAP( AsmBCO bco, AsmVar v, AsmSp start )
{
- asmInstr(bco,i_MKPAP);
- asmInstr(bco,bco->sp-v);
- asmInstr(bco,bco->sp-start-1); /* -1 because fun isn't counted */
- bco->sp = start;
+ emiti_8_8(bco,i_MKPAP,bco->sp-v,bco->sp-start-1);
+ /* -1 because fun isn't counted */
+ setSp(bco, start);
}
AsmVar asmClosure( AsmBCO bco, AsmObject p )
{
- StgWord o = bco->object.ptrs.len;
- if (o < 256) {
- asmInstr(bco,i_CONST);
- asmInstr(bco,o);
- asmPtr(bco,p);
- } else {
- asmInstr(bco,i_CONST2);
- asmInstr(bco,o / 256);
- asmInstr(bco,o % 256);
- asmPtr(bco,p);
- }
- bco->sp += sizeofW(StgPtr);
+ emit_i_CONST(bco,bco->object.ptrs.len);
+ asmPtr(bco,p);
+ incSp(bco, sizeofW(StgPtr));
return bco->sp;
}
+AsmVar asmGHCClosure( AsmBCO bco, AsmObject p )
+{
+ // A complete hack. Pushes the address as a tagged int
+ // and then uses SLIDE to get rid of the tag. Appalling.
+ asmConstInt(bco, (AsmInt)p);
+ emit_i_SLIDE(bco,0,1); decSp(bco,1);
+ return bco->sp;
+}
+
+
/* --------------------------------------------------------------------------
* Building InfoTables
* ------------------------------------------------------------------------*/
info->layout.payload.nptrs = nptrs;
info->srt_len = tag;
info->type = CONSTR;
- info->flags = FLAGS_CONSTR;
#ifdef USE_MINIINTERPRETER
info->entry = stgCast(StgFunPtr,&Hugs_CONSTR_entry);
#else