Success!
ANOQ of the Sun
anoq@hardcoreprocessing.com
Fri, 5 Nov 1999 14:19:50 -0800
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------_=_NextPart_000_01BF27DC.5998CBDC
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Yes!
Now it works! I used the SDL_mangle.h. I have commented out
the code I wrote for the "real" WinMain (which aparently didn't
work - at least not with SDL...)
I commented it out by writing:
#if defined(_WIN320)
so that you can still use grep "WIN32" * to spot the
interesting parts of the code.
I have attached the source files that might have changed.
And I've attached the demo for Windows (this time there
are fewer and smaller files :)
"SDL-dib.dll" and "Game.exe" goes beside the Linux file "Game",
and you should also create a copy of background.bmp and call
it blocks.bmp, like this:
<anywhere>/SDL-dib.dll
<anywhere>/Game.exe
<anywhere>/GFX/background.bmp
<anywhere>/GFX/blocks.bmp
Now the blocks also changes when the mouse
is passed over them, and there are 10 static
blocks at the side...
The port is not complete as it is, but I guess the
missing stuff can be written as it is needed...
Thanks a lot for all your help and kindness!
It's a pleasure to have hope of writing games in SML again :)
Cheers
--
http://www.HardcoreProcessing.com
------_=_NextPart_000_01BF27DC.5998CBDC
Content-Type: application/x-unknown-content-type-ProjectBuilder.c;
name="gc.c"
Content-Transfer-Encoding: quoted-printable
Content-Disposition: attachment;
filename="gc.c"
/* Copyright (C) 1997-1999 NEC Research Institute.=0A=
* Please see the file LICENSE for license information.=0A=
*/=0A=
=0A=
#include "gc.h"=0A=
=0A=
#if defined(_WIN32)=0A=
#include <windows.h>=0A=
#include <sys/timeb.h>=0A=
=0A=
#define pagesize 4096 //FIXME: I guess this is correct for now, but =
ugly...=0A=
=0A=
// I _think_ this is correct - it's some constants from Delphi...=0A=
=0A=
#ifndef _SH_DENYRD=0A=
#define _O_RDONLY 0=0A=
#define _O_WRONLY 1=0A=
#define _O_RDWR 2=0A=
//OF_SHARE_COMPAT 0=0A=
//OF_SHARE_EXCLUSIVE 0x10=0A=
#define _SH_DENYWR 0x20=0A=
#define _SH_DENYRD 48=0A=
#define _SH_DENYNO 0x40=0A=
//OF_PARSE 0x100=0A=
//OF_DELETE 0x200=0A=
//OF_VERIFY 0x400=0A=
//OF_CANCEL 0x800=0A=
//#define _O_CREAT 0x1000=0A=
//OF_PROMPT 0x2000=0A=
//OF_EXIST 0x4000=0A=
//OF_REOPEN 0x8000=0A=
#endif=0A=
=0A=
#else=0A=
#include <sys/mman.h>=0A=
#include <sys/resource.h>=0A=
#endif=0A=
=0A=
#include <fcntl.h>=0A=
#include <string.h>=0A=
#include <values.h>=0A=
=0A=
#define GC_DISPLAY_HEAP FALSE=0A=
#define GC_DEBUG FALSE=0A=
#define GC_DEBUG_ALLOC FALSE=0A=
#define STRING_HEADER GC_arrayHeader(1, 0)=0A=
#define FORWARDED 0xFFFFFFFF=0A=
#define NUM_POINTERS_MASK 0x0000FFFF=0A=
#define IS_NORMAL_MASK 0x8000=0A=
#define NUM_NON_POINTERS_MASK 0x7FFF=0A=
=0A=
/* Continuation objects are layed out as follows.=0A=
* 1 word header (CONT_HEADER)=0A=
* 1 uint size=0A=
* 1 uint exnStack=0A=
* size words of stack data=0A=
*/=0A=
#define CONT_HEADER 0x7FFFFFFF=0A=
=0A=
#define toBytes(n) ((n) << 2)=0A=
=0A=
typedef void (*pointerFun)(GC_state *s, pointer *p);=0A=
=0A=
#if defined(_WIN32)=0A=
// These seems to be defined already...=0A=
// #define min(x, y) (((uint)x < (uint)y) ? (uint)x : (uint)y)=0A=
// #define max(x, y) (((uint)x > (uint)y) ? (uint)x : (uint)y)=0A=
#else=0A=
static inline uint min(uint x, uint y) {=0A=
return ((x < y) ? x : y);=0A=
}=0A=
=0A=
static inline uint max(uint x, uint y) {=0A=
return ((x > y) ? x : y);=0A=
}=0A=
#endif=0A=
=0A=
static ushort empty_GC_offsets[] =3D { 0 };=0A=
=0A=
static void noLocals(GC_state *s) {=0A=
s->bytesRequested =3D 0;=0A=
s->localOffsets =3D empty_GC_offsets;=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Safe mmap and munmap */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#if defined(_WIN32)=0A=
// This is from the SML/NJ source...=0A=
=0A=
void *alloc_vmem(int nb)=0A=
{=0A=
void *p;=0A=
=0A=
p =3D (void *) VirtualAlloc(NULL,=0A=
nb,=0A=
MEM_COMMIT|MEM_RESERVE,=0A=
PAGE_EXECUTE_READWRITE);=0A=
if (p =3D=3D NULL) {=0A=
die("VirtualAlloc failed on request of size %lx\n", nb);=0A=
}=0A=
return p;=0A=
}=0A=
=0A=
/* free_vmem:=0A=
* Return memory to OS.=0A=
*/=0A=
void free_vmem (void *p)=0A=
{=0A=
if (!VirtualFree((LPVOID)p,=0A=
0,=0A=
MEM_RELEASE)) {=0A=
die("unable to VirtualFree memory at %lx\n", p);=0A=
}=0A=
}=0A=
#endif=0A=
=0A=
static void *smmap(size_t length) {=0A=
void *result;=0A=
=0A=
#if defined(_WIN32)=0A=
result =3D alloc_vmem(length);=0A=
#else =0A=
result =3D mmap(NULL, length, PROT_READ | PROT_WRITE, =0A=
MAP_PRIVATE | MAP_ANON, -1, 0);=0A=
#endif=0A=
=0A=
if (result =3D=3D (void*)-1) die("mmap failed");=0A=
=0A=
return result;=0A=
}=0A=
=0A=
static void smunmap(pointer base, size_t length) {=0A=
if (0 =3D=3D length)=0A=
return;=0A=
#if defined(_WIN32)=0A=
free_vmem(base);=0A=
#else=0A=
if (0 !=3D munmap(base, length))=0A=
die("munmap failed");=0A=
#endif=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* fromSpace, toSpace */=0A=
/* ------------------------------------------------- */=0A=
=0A=
static inline void setLimit(GC_state *s) {=0A=
s->limit =3D s->base + s->fromSize;=0A=
}=0A=
=0A=
static void fromSpace(GC_state *s) {=0A=
s->base =3D smmap(s->fromSize);=0A=
if (s->fromSize > s->maxHeapSizeSeen)=0A=
s->maxHeapSizeSeen =3D s->fromSize;=0A=
setLimit(s);=0A=
}=0A=
=0A=
static void toSpace(GC_state *s) {=0A=
s->toBase =3D smmap(s->toSize);=0A=
if (s->toSize > s->maxHeapSizeSeen)=0A=
s->maxHeapSizeSeen =3D s->toSize;=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* currentTime */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* return time as number of milliseconds */=0A=
static uint currentTime() {=0A=
uint result;=0A=
=0A=
#if defined(_WIN32)=0A=
result =3D GetTickCount();=0A=
#else=0A=
struct rusage ru;=0A=
getrusage(RUSAGE_SELF, &ru);=0A=
=0A=
result =3D 0;=0A=
result +=3D 1000 * ru.ru_utime.tv_sec;=0A=
result +=3D 1000 * ru.ru_stime.tv_sec;=0A=
result +=3D ru.ru_utime.tv_usec / 1000;=0A=
result +=3D ru.ru_stime.tv_usec / 1000;=0A=
#endif=0A=
=0A=
return result;=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* roundPage */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/*=0A=
* Round size up to a multiple of the size of a page.=0A=
*/=0A=
size_t roundPage(size_t size)=0A=
{=0A=
static size_t psize;=0A=
=0A=
#if defined(_WIN32)=0A=
psize =3D pagesize;//FIXME: I guess this is correct for now, but not =
nice...=0A=
#else=0A=
psize =3D getpagesize();=0A=
#endif=0A=
size +=3D psize - 1;=0A=
size -=3D size % psize;=0A=
return (size);=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* computeHeapSize */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* returns min(s->maxHeapSize, live * ratio).=0A=
* It is careful not to overflow when doing the multiply.=0A=
* It should only be called when not s->useFixedHeap, since =
s->maxHeapSize is=0A=
* only set in that case.=0A=
*/=0A=
static uint computeHeapSize(GC_state *s, uint live, uint ratio) {=0A=
ullong needed;=0A=
=0A=
assert(not s->useFixedHeap);=0A=
=0A=
needed =3D ((ullong)live) * ratio;=0A=
return ((needed > s->maxHeapSize)=0A=
? s->maxHeapSize=0A=
: roundPage(needed));=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* extractArrayNumBytes */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* The number of bytes in an array, not including the header. */=0A=
static inline uint extractArrayNumBytes(pointer p, =0A=
uint numPointers,=0A=
uint numNonPointers) {=0A=
uint numElements, bytesPerElement, result;=0A=
=0A=
numElements =3D GC_arrayNumElements(p);=0A=
bytesPerElement =3D numNonPointers + toBytes(numPointers);=0A=
result =3D wordAlign(numElements * bytesPerElement);=0A=
=0A=
return result;=0A=
}=0A=
=0A=
/* WARNING:=0A=
* foreachGlobal, foreachLocal, foreachPointerInStack, =
foreachPointerInHeap=0A=
* may apply their argument function f to values that are not pointers. =
These=0A=
* values will always be nonzero mod 4, and should be first checked by =
f using =0A=
* GC_isPointer.=0A=
*/=0A=
/* ------------------------------------------------- */=0A=
/* foreachGlobal */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* Apply f to each global pointer into the heap. */=0A=
static void foreachGlobal(GC_state *s, pointerFun f) {=0A=
int i;=0A=
=0A=
for (i =3D 0 ; i < s->numGlobals ; ++i)=0A=
f(s, &(s->globals[i]));=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* foreachLocal */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* Apply f to each local pointer into the heap. */=0A=
static void foreachLocal(GC_state *s, pointerFun f) {=0A=
int i;=0A=
=0A=
for (i =3D 0 ; i < s->localOffsets[0] ; ++i)=0A=
f(s, &(s->locals[s->localOffsets[i + 1]]));=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* foreachPointerInStack */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* Apply f to each pointer from the stack to the heap. */=0A=
static void foreachPointerInStackGen(GC_state *s, pointer bottom, =
pointer top,=0A=
pointerFun f) {=0A=
int i;=0A=
=0A=
while (top >=3D bottom) {=0A=
/* inv: top points at a frame index */=0A=
uint frameIndex;=0A=
GC_frameLayout *layout;=0A=
GC_offsets frameOffsets;=0A=
=0A=
frameIndex =3D *(uint*) top;=0A=
#if GC_DEBUG=0A=
fprintf(stderr, "frame index %d.\n", frameIndex);=0A=
#endif=0A=
assert(frameIndex < s->maxFrameIndex);=0A=
layout =3D &(s->frameLayouts[frameIndex]);=0A=
frameOffsets =3D layout->offsets;=0A=
top -=3D layout->numBytes;=0A=
=0A=
for (i =3D 0 ; i < frameOffsets[0] ; ++i) {=0A=
#if GC_DEBUG=0A=
fprintf(stderr, "frame offset %d.\n", frameOffsets[i + 1]);=0A=
#endif=0A=
f(s, (pointer*)(top + frameOffsets[i + 1]));=0A=
}=0A=
}=0A=
=0A=
assert(top =3D=3D bottom - WORD_SIZE);=0A=
}=0A=
=0A=
static void foreachPointerInStack(GC_state *s, pointerFun f) {=0A=
foreachPointerInStackGen(s, s->stackBottom, s->stackTop, f);=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* foreachPointerInHeap */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* Apply f to each pointer between s->front and s->back, which should =
be a =0A=
* contiguous sequence of objects, where s->front points at a header =
word =0A=
* and s->back points just past the end of the last object.=0A=
* f may increase s->back (for example, this is done by forward).=0A=
*/=0A=
static void foreachPointerInHeap(GC_state *s, pointerFun f) {=0A=
pointer front;=0A=
=0A=
front =3D s->front;=0A=
=0A=
while (front < s->back) {=0A=
/* Invariant: front always points at the next header word. */=0A=
word header;=0A=
uint numPointers;=0A=
uint numNonPointers;=0A=
bool isArray =3D FALSE;=0A=
=0A=
header =3D *(word*)front;=0A=
=0A=
front +=3D WORD_SIZE;=0A=
=0A=
if (not (header & HIGH_BIT)) { =0A=
isArray =3D TRUE;=0A=
if (CONT_HEADER !=3D header) {=0A=
/* Looking at an array, the header is here. */=0A=
header =3D *(word*)front;=0A=
front +=3D WORD_SIZE;=0A=
}=0A=
} =0A=
=0A=
/* front points at beginning of object data */=0A=
=0A=
/* extract header components */=0A=
numPointers =3D header & NUM_POINTERS_MASK;=0A=
numNonPointers =3D =0A=
(header >> NON_POINTERS_SHIFT) & NUM_NON_POINTERS_MASK;=0A=
=0A=
if (isArray) {=0A=
if (CONT_HEADER =3D=3D header) { /* It's a continuation. */=0A=
uint size;=0A=
=0A=
size =3D *(uint*)front;=0A=
front +=3D 2 * WORD_SIZE;=0A=
foreachPointerInStackGen=0A=
(s, front, front + size - WORD_SIZE, f);=0A=
front +=3D size;=0A=
} else { /* It's really an array */=0A=
uint numBytes;=0A=
=0A=
numBytes =3D extractArrayNumBytes(front, numPointers, =
numNonPointers);=0A=
=0A=
if (numBytes =3D=3D 0) { =0A=
/* An empty array -- skip the POINTER_SIZE bytes=0A=
* for the forwarding pointer.=0A=
*/=0A=
front +=3D POINTER_SIZE;=0A=
} else {=0A=
pointer max;=0A=
=0A=
max =3D front + numBytes;=0A=
=0A=
if (numPointers =3D=3D 0) {=0A=
/* There are no pointers, just update the front=0A=
* of the queue.=0A=
*/=0A=
front =3D max;=0A=
} else if (numNonPointers =3D=3D 0) { =0A=
/* It's an array with only pointers. */=0A=
for (; front < max; front +=3D POINTER_SIZE)=0A=
f(s, (pointer*)front);=0A=
} else {=0A=
uint numBytesPointers;=0A=
=0A=
numBytesPointers =3D toBytes(numPointers);=0A=
=0A=
/* for each array element */=0A=
while (front < max) {=0A=
pointer max2;=0A=
front +=3D numNonPointers;=0A=
max2 =3D front + numBytesPointers;=0A=
/* Forward all internal pointers. */=0A=
for ( ; front < max2 ; front +=3D POINTER_SIZE) =0A=
f(s, (pointer*)front);=0A=
}=0A=
}=0A=
assert(front =3D=3D max);=0A=
}=0A=
}=0A=
} else {=0A=
/* normal object */=0A=
pointer max;=0A=
=0A=
front +=3D toBytes(numNonPointers);=0A=
max =3D front + toBytes(numPointers);=0A=
=0A=
/* Forward all internal pointers. */=0A=
for ( ; front < max ; front +=3D POINTER_SIZE) =0A=
f(s, (pointer*)front);=0A=
}=0A=
} /* end while (front < s->back) */=0A=
=0A=
s->front =3D front;=0A=
assert(s->back =3D=3D s->front);=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* invariant */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#ifndef NODEBUG=0A=
static bool isInFromSpace(GC_state *s, pointer p) {=0A=
return (not(GC_isPointer(p)) =0A=
or (s->base <=3D p and p < s->base + s->fromSize));=0A=
}=0A=
=0A=
static void assertIsInFromSpace(GC_state *s, pointer *p) {=0A=
assert(isInFromSpace(s, *p));=0A=
}=0A=
=0A=
static bool isInToSpace(GC_state *s, pointer p) {=0A=
return (not(GC_isPointer(p))=0A=
or (s->toBase <=3D p and p < s->toBase + s->toSize));=0A=
}=0A=
=0A=
static bool invariant(GC_state *s) {=0A=
/* would be nice to add divisiblity by pagesize of various things =
*/=0A=
=0A=
/* Frame layouts */=0A=
{=0A=
int i;=0A=
for (i =3D 0; i < s->maxFrameIndex; ++i) {=0A=
GC_frameLayout *layout;=0A=
=0A=
layout =3D &(s->frameLayouts[i]);=0A=
=0A=
if (layout->numBytes > 0) {=0A=
GC_offsets offsets;=0A=
int j;=0A=
=0A=
assert(layout->numBytes <=3D s->maxFrameSize);=0A=
offsets =3D layout->offsets;=0A=
for (j =3D 0; j < offsets[0]; ++j)=0A=
assert(offsets[j + 1] < layout->numBytes);=0A=
}=0A=
}=0A=
}=0A=
=0A=
/* Heap and stack. */=0A=
assert(s->base <=3D s->frontier);=0A=
assert(0 =3D=3D s->fromSize or s->frontier < s->limit);=0A=
assert(s->limit =3D=3D s->base + s->fromSize);=0A=
assert(s->useFixedHeap or (s->fromSize <=3D s->maxHeapSize=0A=
and s->toSize <=3D s->maxHeapSize));=0A=
assert(s->toBase =3D=3D NULL or s->toSize =3D=3D s->fromSize);=0A=
assert(s->stackBottom - WORD_SIZE <=3D s->stackTop=0A=
and s->stackTop < s->stackBottom + s->stackSize);=0A=
assert(s->stackLimit =3D=3D s->stackBottom + s->stackSize - =
s->maxFrameSize);=0A=
=0A=
/* Check that all pointers are into from space. */=0A=
foreachLocal(s, assertIsInFromSpace);=0A=
foreachGlobal(s, assertIsInFromSpace);=0A=
foreachPointerInStack(s, assertIsInFromSpace);=0A=
s->front =3D s->base;=0A=
s->back =3D s->frontier;=0A=
foreachPointerInHeap(s, assertIsInFromSpace);=0A=
=0A=
/* check the exception stack */=0A=
{=0A=
uint offset;=0A=
=0A=
for (offset =3D s->exnStack; offset > 0; ) {=0A=
assert(s->stackBottom + offset =0A=
<=3D s->stackTop + WORD_SIZE);=0A=
offset =3D *(uint*)(s->stackBottom + offset + WORD_SIZE);=0A=
}=0A=
}=0A=
=0A=
return TRUE;=0A=
}=0A=
#endif=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* allocateStack */=0A=
/* ------------------------------------------------- */=0A=
=0A=
static void setStackLimit(GC_state *s) {=0A=
s->stackLimit =3D s->stackBottom + s->stackSize - s->maxFrameSize;=0A=
}=0A=
=0A=
static void allocateStack(GC_state *s) {=0A=
s->stackBottom =3D smmap(s->stackSize);=0A=
setStackLimit(s);=0A=
} =0A=
=0A=
/* ------------------------------------------------- */=0A=
/* translateStack */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* Update stackTop for a stack that has moved from =0A=
* s->stackBottom =3D=3D old to the current s->stackBottom.=0A=
* The code is careful to use a uint for the difference and not an int =
so that =0A=
* moves over arbitrarily large differences in the address space are =
allowed.=0A=
*/=0A=
static void translateStack(GC_state *s, pointer old) {=0A=
if (s->stackBottom > old)=0A=
s->stackTop +=3D (s->stackBottom - old);=0A=
else=0A=
s->stackTop -=3D (old - s->stackBottom);=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* maybeShrinkStack */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define STACK_SHRINK_THRESHOLD 4=0A=
#define STACK_SHRINK_FACTOR 2=0A=
=0A=
void maybeShrinkStack(GC_state *s) {=0A=
uint size;=0A=
=0A=
size =3D s->stackTop + WORD_SIZE - s->stackBottom;=0A=
=0A=
if (size * STACK_SHRINK_THRESHOLD < s->stackSize=0A=
#if defined(_WIN32)=0A=
and s->stackSize > pagesize) { //FIXME: ...=0A=
#else=0A=
and s->stackSize > getpagesize()) {=0A=
#endif=0A=
uint keep;=0A=
=0A=
keep =3D roundPage(max(size, s->stackSize / STACK_SHRINK_FACTOR));=0A=
if (keep < s->stackSize) {=0A=
if (GC_DEBUG or s->messages)=0A=
fprintf(stderr, "Shrinking stack to size %u.\n",=0A=
keep);=0A=
assert(s->stackTop < s->stackBottom + keep);=0A=
smunmap(s->stackBottom + keep, s->stackSize - keep);=0A=
s->stackSize =3D keep;=0A=
setStackLimit(s);=0A=
}=0A=
}=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_growStack */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define STACK_GROW_FACTOR 2=0A=
void GC_growStack(GC_state *s) {=0A=
pointer old;=0A=
uint oldSize, size;=0A=
=0A=
noLocals(s);=0A=
assert(invariant(s));=0A=
old =3D s->stackBottom;=0A=
oldSize =3D s->stackSize;=0A=
size =3D s->stackTop + WORD_SIZE - s->stackBottom;=0A=
s->stackSize *=3D STACK_GROW_FACTOR;=0A=
if (GC_DEBUG or s->messages)=0A=
fprintf(stderr, "Growing stack to size %u.\n", s->stackSize);=0A=
allocateStack(s);=0A=
memcpy(s->stackBottom, old, size);=0A=
smunmap(old, oldSize);=0A=
translateStack(s, old);=0A=
=0A=
assert(invariant(s));=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* initCounters */=0A=
/* ------------------------------------------------- */=0A=
=0A=
static void initCounters(GC_state *s) {=0A=
/* The next 5 are gc-summary statistics */=0A=
s->startTime =3D currentTime();=0A=
s->bytesAllocated =3D 0;=0A=
s->bytesCopied =3D 0;=0A=
s->numGCs =3D 0;=0A=
s->gcTime =3D 0;=0A=
s->maxHeapSizeSeen =3D 0;=0A=
s->maxBytesLive =3D 0;=0A=
=0A=
/* The next 3 are for heap resizing */=0A=
s->minLive =3D 20;=0A=
s->maxLive =3D 3;=0A=
/* set liveRatio (close) to the geometric mean of minLive and maxLive =
*/=0A=
{ =0A=
uint i;=0A=
for (i =3D s->maxLive; i * i <=3D s->minLive * s->maxLive; ++i) ;=0A=
s->liveRatio =3D i;=0A=
}=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* getRAMsize */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* RAM size is multiplied by this so that we don't use up all the memory=
*/=0A=
#define RAMslop 0.95=0A=
=0A=
/* Get RAM size from /proc/meminfo. Very Linux specific. =0A=
*=0A=
* /proc/meminfo looks like the following.=0A=
*=0A=
* total: used: free: shared: buffers: cached:=0A=
* Mem: 263462912 251154432 12308480 19861504 52588544 122769408=0A=
* Swap: 131567616 53248 131514368=0A=
* MemTotal: 257288 kB=0A=
*/=0A=
static uint getRAMsize() {=0A=
FILE *file;=0A=
char c;=0A=
char buf[80];=0A=
uint n;=0A=
=0A=
#if defined(_WIN32)=0A=
n =3D 16000000; //FIXME: Ouch!!!=0A=
#else=0A=
file =3D sopen("/proc/meminfo", "r");=0A=
while ((c =3D fgetc(file)) !=3D '\n') ;=0A=
fgets(buf, sizeof("Mem:"), file);=0A=
while ((c =3D fgetc(file)) =3D=3D ' ') ;=0A=
n =3D 0;=0A=
do n =3D n * 10 + (int)(c - '0');=0A=
while ((c =3D fgetc(file)) !=3D ' ');=0A=
fclose(file);=0A=
#endif=0A=
return roundPage((uint)((double)n * RAMslop));=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* setHeapParams */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* set fromSize and maybe maxHeapSize, depending on whether =
useFixedHeap.=0A=
* size must not be an approximation, because setHeapParams will die if =
it=0A=
* can't set fromSize big enough.=0A=
*/=0A=
void setHeapParams(GC_state *s, uint size) {=0A=
if (s->useFixedHeap) {=0A=
if (0 =3D=3D s->fromSize)=0A=
s->fromSize =3D getRAMsize();=0A=
s->fromSize =3D roundPage(s->fromSize / 2);=0A=
} else {=0A=
if (0 =3D=3D s->maxHeapSize) =0A=
s->maxHeapSize =3D getRAMsize();=0A=
s->maxHeapSize =3D roundPage(s->maxHeapSize / 2);=0A=
s->fromSize =3D computeHeapSize(s, size, s->liveRatio);=0A=
}=0A=
if (size > s->fromSize)=0A=
die("Out of memory.");=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_init */=0A=
/* ------------------------------------------------- */=0A=
=0A=
void GC_init(GC_state *s) {=0A=
initCounters(s);=0A=
noLocals(s);=0A=
setHeapParams(s, s->bytesLive);=0A=
{=0A=
int i;=0A=
=0A=
for (i =3D 0; i < s->numGlobals; ++i)=0A=
s->globals[i] =3D (pointer)0x1;=0A=
}=0A=
fromSpace(s);=0A=
s->frontier =3D s->base;=0A=
s->toSize =3D s->fromSize;=0A=
toSpace(s);=0A=
/* There is initially no exception stack, so we store a terminal=0A=
* bogus offset of 0.=0A=
*/=0A=
s->exnStack =3D 0;=0A=
/* The initial stack size must be big enough so that doubling it =
will=0A=
* always make enough space for the largest frame that needs =
pushed.=0A=
*/=0A=
#if defined(_WIN32)=0A=
s->stackSize =3D max(pagesize, roundPage(s->maxFrameSize));=0A=
#else=0A=
s->stackSize =3D max(getpagesize(), roundPage(s->maxFrameSize));=0A=
#endif=0A=
allocateStack(s);=0A=
/* stackTop points at the last spot in use */=0A=
s->stackTop =3D s->stackBottom - WORD_SIZE ;=0A=
=0A=
assert(invariant(s));=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* forward */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* Forward the object pointed to by *pp.=0A=
* Update *pp to point to the new object. =0A=
*/=0A=
static inline void forward(GC_state *s, pointer *pp) {=0A=
pointer p;=0A=
=0A=
p =3D *pp;=0A=
assert(isInFromSpace(s, p));=0A=
=0A=
if (GC_isPointer(p)) {=0A=
word header;=0A=
=0A=
/* The header is always one word before the object. */=0A=
header =3D *(word*)(p - WORD_SIZE);=0A=
if (header =3D=3D FORWARDED) =0A=
/* Already forwarded, just get the forwarding pointer. */=0A=
*pp =3D *(pointer*)p;=0A=
else { =0A=
/* forward the object */=0A=
uint numPointers, numNonPointers;=0A=
bool isNormal;=0A=
pointer objectStart;=0A=
uint objectBytes, headerBytes;=0A=
=0A=
/* extract header components */=0A=
numPointers =3D header & NUM_POINTERS_MASK;=0A=
numNonPointers =3D header >> NON_POINTERS_SHIFT;=0A=
isNormal =3D numNonPointers & IS_NORMAL_MASK;=0A=
numNonPointers =3D numNonPointers & NUM_NON_POINTERS_MASK;=0A=
=0A=
/* set headerBytes and objectBytes */=0A=
if (isNormal) {=0A=
headerBytes =3D GC_OBJECT_HEADER_SIZE;=0A=
objectBytes =3D toBytes(numPointers + numNonPointers);=0A=
} else if (CONT_HEADER =3D=3D header) {=0A=
headerBytes =3D WORD_SIZE;=0A=
objectBytes =3D 2 * WORD_SIZE + *(uint*)p;=0A=
} else { /* array */=0A=
headerBytes =3D GC_ARRAY_HEADER_SIZE;=0A=
objectBytes =3D extractArrayNumBytes(p, numPointers,=0A=
numNonPointers);=0A=
/* Empty arrays have POINTER_SIZE bytes for the =0A=
* forwarding pointer.=0A=
*/=0A=
if (objectBytes =3D=3D 0) objectBytes =3D POINTER_SIZE;=0A=
} =0A=
=0A=
objectStart =3D p - headerBytes;=0A=
=0A=
/* copy the object */=0A=
memcpy(s->back, objectStart, headerBytes + objectBytes);=0A=
=0A=
/* set the forwarding pointer and update s->back */=0A=
*(word*)(p - WORD_SIZE) =3D FORWARDED;=0A=
s->back +=3D headerBytes;=0A=
*pp =3D s->back;=0A=
*(pointer*)p =3D s->back;=0A=
s->back +=3D objectBytes;=0A=
}=0A=
}=0A=
=0A=
assert(isInToSpace(s, *pp));=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* transitiveCopy */=0A=
/* ------------------------------------------------- */=0A=
=0A=
static void transitiveCopy(GC_state *s) {=0A=
#if GC_DEBUG=0A=
fprintf(stderr, "Transitive copy.\n");=0A=
#endif=0A=
foreachPointerInHeap(s, forward);=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* startGC */=0A=
/* ------------------------------------------------- */=0A=
=0A=
static void startGC(GC_state *s) {=0A=
assert(invariant(s));=0A=
=0A=
if (GC_DEBUG or s->messages)=0A=
fprintf(stderr, "Starting gc.\n");=0A=
=0A=
s->recentStart =3D currentTime();=0A=
=0A=
if (not s->useFixedHeap) {=0A=
uint needed;=0A=
=0A=
needed =3D computeHeapSize(s, s->bytesLive + s->bytesRequested,=0A=
s->liveRatio);=0A=
=0A=
/* toSpace must be at least as big as fromSpace */=0A=
if (needed < s->fromSize)=0A=
needed =3D s->fromSize;=0A=
=0A=
/* Massage toSpace so that it is of needed size. */=0A=
if (s->toBase !=3D NULL) {=0A=
if (s->toSize < needed) {=0A=
if (GC_DEBUG or s->messages)=0A=
fprintf(stderr, "Unmapping toSpace\n");=0A=
smunmap(s->toBase, s->toSize);=0A=
s->toBase =3D NULL;=0A=
} else {=0A=
uint delete;=0A=
=0A=
delete =3D s->toSize - needed;=0A=
if (GC_DEBUG or s->messages)=0A=
fprintf(stderr, "Shrinking toSpace by %u\n", delete);=0A=
smunmap(s->toBase + needed, delete);=0A=
}=0A=
}=0A=
s->toSize =3D needed;=0A=
if (NULL =3D=3D s->toBase)=0A=
toSpace(s);=0A=
}=0A=
=0A=
s->numGCs++;=0A=
s->bytesAllocated +=3D s->frontier - s->base - s->bytesLive;=0A=
s->front =3D s->toBase;=0A=
s->back =3D s->toBase;=0A=
=0A=
if (GC_DEBUG or s->messages)=0A=
fprintf(stderr, =0A=
"toSpace is %s bytes.\n",=0A=
uintToCommaString(s->toSize));=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* finishGC */=0A=
/* ------------------------------------------------- */=0A=
=0A=
void finishGC(GC_state *s) {=0A=
uint gcTime;=0A=
uint size;=0A=
=0A=
maybeShrinkStack(s);=0A=
=0A=
#if GC_DEBUG=0A=
fprintf(stderr, "Forwarding globals.\n");=0A=
#endif=0A=
foreachGlobal(s, forward);=0A=
=0A=
#if GC_DEBUG=0A=
fprintf(stderr, "Forwarding stack\n");=0A=
#endif=0A=
foreachPointerInStack(s, forward);=0A=
=0A=
#if GC_DEBUG=0A=
fprintf(stderr, "Forwarding %d locals.\n", s->localOffsets[0]);=0A=
#endif=0A=
foreachLocal(s, forward);=0A=
=0A=
transitiveCopy(s);=0A=
=0A=
size =3D s->fromSize;=0A=
=0A=
/* Swap fromSpace and toSpace. */=0A=
{=0A=
pointer tmp;=0A=
tmp =3D s->base;=0A=
s->base =3D s->toBase;=0A=
s->toBase =3D tmp;=0A=
}=0A=
{=0A=
uint tmp;=0A=
tmp =3D s->fromSize;=0A=
s->fromSize =3D s->toSize;=0A=
s->toSize =3D tmp;=0A=
}=0A=
=0A=
s->frontier =3D s->back;=0A=
s->bytesLive =3D s->frontier - s->base;=0A=
if (s->bytesLive > s->maxBytesLive)=0A=
s->maxBytesLive =3D s->bytesLive;=0A=
=0A=
/* Resize heap, if necessary. */=0A=
if (not s->useFixedHeap) {=0A=
uint needed;=0A=
=0A=
needed =3D s->bytesLive + s->bytesRequested;=0A=
if (computeHeapSize(s, needed, s->minLive) < s->fromSize) {=0A=
/* shrink heap */=0A=
uint keep;=0A=
=0A=
keep =3D computeHeapSize(s, needed, s->liveRatio);=0A=
if (GC_DEBUG or s->messages)=0A=
fprintf(stderr, "Shrinking heap to %u bytes.\n", keep);=0A=
assert(keep <=3D s->fromSize);=0A=
smunmap(s->base + keep, s->fromSize - keep);=0A=
s->fromSize =3D keep;=0A=
}=0A=
=0A=
if ((s->toSize < s->fromSize)=0A=
or (computeHeapSize(s, needed, s->maxLive) > s->fromSize)) {=0A=
/* prepare to allocate new toSpace at next GC */=0A=
smunmap(s->toBase, s->toSize);=0A=
s->toBase =3D NULL;=0A=
} else {=0A=
/* shrink toSpace so that s->toSize =3D=3D s->fromSize */=0A=
smunmap(s->toBase + s->fromSize, s->toSize - s->fromSize);=0A=
s->toSize =3D s->fromSize;=0A=
}=0A=
}=0A=
=0A=
setLimit(s);=0A=
=0A=
s->bytesCopied +=3D s->bytesLive;=0A=
gcTime =3D currentTime() - s->recentStart;=0A=
s->gcTime +=3D gcTime;=0A=
=0A=
if (GC_DEBUG or s->messages) {=0A=
fprintf(stderr, "Finished gc.\n");=0A=
fprintf(stderr, "time(ms): %s\n", intToCommaString(gcTime));=0A=
fprintf(stderr, "live(bytes): %s (%.1f%%)\n", =0A=
intToCommaString(s->bytesLive),=0A=
100.0 * ((double) s->bytesLive) / size);=0A=
}=0A=
=0A=
assert(invariant(s));=0A=
=0A=
if (s->frontier + s->bytesRequested >=3D s->limit) {=0A=
if (s->useFixedHeap or s->fromSize =3D=3D s->maxHeapSize) =0A=
die("Out of memory.");=0A=
else GC_gc(s);=0A=
}=0A=
=0A=
assert(s->frontier + s->bytesRequested < s->limit);=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_gc */=0A=
/* ------------------------------------------------- */=0A=
=0A=
void GC_gc(GC_state *s) {=0A=
startGC(s);=0A=
finishGC(s);=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_size */=0A=
/* ------------------------------------------------- */=0A=
=0A=
uint GC_size(GC_state *s, pointer root) {=0A=
uint size;=0A=
=0A=
noLocals(s);=0A=
startGC(s);=0A=
forward(s, &root);=0A=
transitiveCopy(s);=0A=
size =3D s->back - s->toBase;=0A=
finishGC(s);=0A=
=0A=
return size;=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_createStrings */=0A=
/* ------------------------------------------------- */=0A=
=0A=
void GC_createStrings(GC_state *s, struct GC_stringInit inits[]) {=0A=
pointer frontier;=0A=
int i;=0A=
=0A=
assert(invariant(s));=0A=
=0A=
frontier =3D s->frontier;=0A=
=0A=
for(i =3D 0; inits[i].str !=3D NULL; ++i) {=0A=
uint numElements, numBytes;=0A=
=0A=
numElements =3D inits[i].size;=0A=
numBytes =3D GC_ARRAY_HEADER_SIZE=0A=
+ ((0 =3D=3D numElements) =0A=
? POINTER_SIZE =0A=
: wordAlign(numElements));=0A=
=0A=
if (frontier + numBytes >=3D s->limit)=0A=
die("Unable to allocate string constant \"%s\".", inits[i].str);=0A=
=0A=
*(word*)frontier =3D numElements;=0A=
*(word*)(frontier + WORD_SIZE) =3D STRING_HEADER;=0A=
s->globals[inits[i].globalIndex] =3D frontier + =
GC_ARRAY_HEADER_SIZE;=0A=
{=0A=
int j;=0A=
=0A=
for (j =3D 0; j < numElements; ++j)=0A=
*(frontier + GC_ARRAY_HEADER_SIZE + j) =0A=
=3D inits[i].str[j];=0A=
}=0A=
frontier +=3D numBytes;=0A=
}=0A=
s->frontier =3D frontier;=0A=
=0A=
assert(invariant(s));=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_done */=0A=
/* ------------------------------------------------- */=0A=
=0A=
static void displayUint(string name, uint n) {=0A=
fprintf(stderr, "%s: %s\n", name, uintToCommaString(n));=0A=
}=0A=
=0A=
static void displayUllong(string name, ullong n) {=0A=
fprintf(stderr, "%s: %s\n", name, ullongToCommaString(n));=0A=
}=0A=
=0A=
void GC_done(GC_state *s) {=0A=
noLocals(s);=0A=
assert(invariant(s));=0A=
smunmap(s->stackBottom, s->stackSize);=0A=
smunmap(s->base, s->fromSize);=0A=
if (s->toBase !=3D NULL) smunmap(s->toBase, s->toSize);=0A=
=0A=
if (s->summary) {=0A=
double time;=0A=
=0A=
displayUint("stack size(bytes)", s->stackSize);=0A=
displayUint("max semispace size(bytes)", s->maxHeapSizeSeen);=0A=
time =3D (double)(currentTime() - s->startTime);=0A=
fprintf(stderr, "GC time(ms): %s (%.1f%%)\n",=0A=
intToCommaString(s->gcTime), =0A=
(0.0 =3D=3D time) ? 0.0 =0A=
: 100.0 * ((double) s->gcTime) / time);=0A=
displayUint("number of GCs", s->numGCs);=0A=
displayUllong("bytes allocated",=0A=
s->bytesAllocated =0A=
+ (s->frontier - s->base - s->bytesLive));=0A=
displayUllong("bytes copied", s->bytesCopied);=0A=
displayUint("max bytes live", s->maxBytesLive);=0A=
} =0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_saveWorld */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* TERMINATOR is used to separate the human readable messages at the =
beginning=0A=
* of the world file from the machine readable data.=0A=
*/=0A=
#define TERMINATOR '\000'=0A=
=0A=
void GC_saveWorld(GC_state *s, =0A=
uint magic,=0A=
pointer fileName,=0A=
void (*saveGlobals)(FILE *file)) {=0A=
FILE *file;=0A=
=0A=
assert(invariant(s));=0A=
=0A=
/* The sopen must happen before the gc, because the GC will =
invalidate=0A=
* the fileName pointer. =0A=
*/=0A=
#if defined(_WIN32)=0A=
// NO! Not the windows shared open function... =0A=
// _O_CREAT=0A=
//file =3D sopen((char*)fileName, _O_WRONLY, _SH_DENYWR);=0A=
// sopen just stands for safe open here...=0A=
file =3D safeopen((char*)fileName, "w");=0A=
#else=0A=
file =3D sopen((char*)fileName, "w");=0A=
#endif=0A=
=0A=
/* Compact the heap into fromSpace */=0A=
noLocals(s);=0A=
GC_gc(s);=0A=
=0A=
fprintf(file, "Heap file created by MLton.\nbase =3D %x\nfrontier =3D =
%x\nstackBottom =3D %x\nstackTop =3D %x\nmaxHeapSize =3D %u\n", =0A=
(uint)s->base,=0A=
(uint)s->frontier,=0A=
(uint)s->stackBottom,=0A=
(uint)s->stackTop,=0A=
s->maxHeapSize);=0A=
=0A=
fputc(TERMINATOR, file);=0A=
=0A=
swriteUint(magic, file);=0A=
swriteUint((uint)s->base, file);=0A=
swriteUint((uint)s->frontier, file);=0A=
swriteUint((uint)s->stackBottom, file);=0A=
swriteUint((uint)s->stackTop, file);=0A=
swriteUint(s->exnStack, file);=0A=
swriteUint((uint)s->useFixedHeap, file);=0A=
swriteUint(s->fromSize, file);=0A=
swriteUint(s->maxHeapSize, file);=0A=
=0A=
swrite(s->stackBottom, 1,=0A=
s->stackTop - s->stackBottom + WORD_SIZE,=0A=
file);=0A=
swrite(s->base, 1, s->frontier - s->base, file);=0A=
(*saveGlobals)(file);=0A=
=0A=
fclose(file);=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* translateHeap */=0A=
/* ------------------------------------------------- */=0A=
=0A=
static int translateDirection;=0A=
static uint translateDiff;=0A=
=0A=
void translatePointer(GC_state *s, pointer *p) {=0A=
if (GC_isPointer(*p)) {=0A=
if (1 =3D=3D translateDirection)=0A=
*p +=3D translateDiff;=0A=
else=0A=
*p -=3D translateDiff;=0A=
}=0A=
}=0A=
=0A=
/* Translate all pointers to the heap from within the stack and the =
heap for=0A=
* a heap that has moved from s->base =3D=3D old to s->base.=0A=
*/=0A=
void translateHeap(GC_state *s, pointer old) {=0A=
if (s->base =3D=3D old)=0A=
return;=0A=
else if (s->base > old) {=0A=
translateDiff =3D s->base - old;=0A=
translateDirection =3D 1;=0A=
} else {=0A=
translateDiff =3D old - s->base;=0A=
translateDirection =3D -1;=0A=
}=0A=
=0A=
/* Translate globals. */=0A=
{=0A=
int i;=0A=
for (i =3D 0; i < s->numGlobals; ++i)=0A=
translatePointer(s, &(s->globals[i]));=0A=
}=0A=
=0A=
/* Translate stack. */=0A=
foreachPointerInStack(s, translatePointer);=0A=
=0A=
/* Translate heap. */=0A=
s->front =3D s->base;=0A=
s->back =3D s->frontier;=0A=
foreachPointerInHeap(s, translatePointer);=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_loadWorld */=0A=
/* ------------------------------------------------- */=0A=
=0A=
void GC_loadWorld(GC_state *s, =0A=
uint magic,=0A=
char *fileName,=0A=
bool heapSizeCommandLine,=0A=
void (*loadGlobals)(FILE *file)) {=0A=
FILE *file;=0A=
uint heapSize, fromSize, maxHeapSize, magic2;=0A=
pointer base, frontier, stackBottom;=0A=
bool useFixedHeap;=0A=
char c;=0A=
=0A=
initCounters(s);=0A=
=0A=
#if defined(_WIN32)=0A=
//file =3D sopen((char*)fileName, _O_RDONLY, _SH_DENYNO);=0A=
file =3D safeopen((char*)fileName, "r");=0A=
#else=0A=
file =3D sopen((char*)fileName, "r");=0A=
#endif=0A=
=0A=
until ((c =3D fgetc(file)) =3D=3D TERMINATOR or EOF =3D=3D c);=0A=
=0A=
if (EOF =3D=3D c) die("Invalid world.");=0A=
=0A=
magic2 =3D sreadUint(file);=0A=
unless (magic =3D=3D magic2)=0A=
die("Invalid world: wrong magic number.");=0A=
base =3D (pointer)sreadUint(file);=0A=
frontier =3D (pointer)sreadUint(file);=0A=
heapSize =3D frontier - base;=0A=
s->bytesLive =3D heapSize;=0A=
stackBottom =3D (pointer)sreadUint(file);=0A=
s->stackTop =3D (pointer)sreadUint(file);=0A=
s->exnStack =3D sreadUint(file);=0A=
useFixedHeap =3D (bool)sreadUint(file);=0A=
fromSize =3D sreadUint(file);=0A=
maxHeapSize =3D sreadUint(file);=0A=
=0A=
/* set s->useFixedHeap, s->maxHeapSize, s->fromSize */=0A=
if (heapSizeCommandLine)=0A=
setHeapParams(s, heapSize);=0A=
else {=0A=
s->useFixedHeap =3D useFixedHeap;=0A=
if (useFixedHeap)=0A=
s->fromSize =3D fromSize;=0A=
else {=0A=
s->maxHeapSize =3D maxHeapSize;=0A=
s->fromSize =3D computeHeapSize(s, heapSize, s->liveRatio);=0A=
}=0A=
}=0A=
=0A=
noLocals(s);=0A=
=0A=
/* Allocate stack. */=0A=
s->stackSize =3D roundPage(s->stackTop - stackBottom);=0A=
allocateStack(s);=0A=
sread(s->stackBottom, 1,=0A=
(s->stackTop + WORD_SIZE) - stackBottom,=0A=
file);=0A=
translateStack(s, stackBottom);=0A=
=0A=
/* Allocate fromSpace. */=0A=
unless (heapSize <=3D s->fromSize) =0A=
die("Not enough space to load world.");=0A=
fromSpace(s);=0A=
sread(s->base, 1, heapSize, file);=0A=
s->frontier =3D s->base + heapSize;=0A=
=0A=
(*loadGlobals)(file);=0A=
=0A=
unless (EOF =3D=3D fgetc(file))=0A=
die("Invalid world: junk at end of file.");=0A=
=0A=
fclose(file);=0A=
=0A=
/* This must occur after loading the heap, stack, and globals, since =
it=0A=
* changes pointers in all of them.=0A=
*/=0A=
translateHeap(s, base);=0A=
=0A=
/* Allocate toSpace. We at lease must do this if s->useFixedHeap. =
*/=0A=
s->toSize =3D s->fromSize;=0A=
toSpace(s);=0A=
=0A=
assert(invariant(s));=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* saveStack */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* Returns a pointer to the cont object. */=0A=
pointer GC_saveStack(GC_state *s) {=0A=
pointer front, result;=0A=
uint size;=0A=
=0A=
size =3D s->stackTop + WORD_SIZE - s->stackBottom;=0A=
=0A=
/* Ensure enough space in heap to save the stack. */=0A=
s->bytesRequested =3D 3 * WORD_SIZE + size;=0A=
if (s->frontier + s->bytesRequested >=3D s->limit) {=0A=
s->localOffsets =3D empty_GC_offsets;=0A=
GC_gc(s);=0A=
}=0A=
=0A=
front =3D s->frontier;=0A=
*(uint*)front =3D CONT_HEADER;=0A=
front +=3D WORD_SIZE;=0A=
result =3D front;=0A=
*(uint*)front =3D size;=0A=
front +=3D WORD_SIZE;=0A=
*(uint*)front =3D s->exnStack;=0A=
front +=3D WORD_SIZE;=0A=
memcpy(front, s->stackBottom, size);=0A=
s->frontier =3D front + size;=0A=
=0A=
return result;=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* restoreStack */=0A=
/* ------------------------------------------------- */=0A=
=0A=
void GC_restoreStack(GC_state *s, pointer p) {=0A=
uint size;=0A=
=0A=
size =3D *(uint*)p;=0A=
s->exnStack =3D *(uint*)(p + WORD_SIZE);=0A=
=0A=
smunmap(s->stackBottom, s->stackSize);=0A=
s->stackSize =3D roundPage(size);=0A=
allocateStack(s);=0A=
s->stackTop =3D s->stackBottom + size - WORD_SIZE;=0A=
memcpy(s->stackBottom, p + 2 * WORD_SIZE, size);=0A=
}=0A=
------_=_NextPart_000_01BF27DC.5998CBDC
Content-Type: application/x-unknown-content-type-ProjectBuilder.h;
name="gc.h"
Content-Transfer-Encoding: quoted-printable
Content-Disposition: attachment;
filename="gc.h"
/* Copyright (C) 1997-1999 NEC Research Institute.=0A=
* Please see the file LICENSE for license information.=0A=
*/=0A=
#ifndef _MLTON_GC_H=0A=
#define _MLTON_GC_H=0A=
/*=0A=
* A stop-and-copy GC with a fixed size heap.=0A=
* Handles fixed size objects and arrays.=0A=
*/=0A=
=0A=
#include <stdio.h>=0A=
#include <stdlib.h>=0A=
=0A=
#include "my-lib.h"=0A=
=0A=
typedef uint word;=0A=
typedef char* pointer;=0A=
=0A=
/* sizes (almost) always measured in bytes */=0A=
#define WORD_SIZE 4=0A=
#define POINTER_SIZE WORD_SIZE=0A=
#define GC_OBJECT_HEADER_SIZE WORD_SIZE=0A=
#define GC_ARRAY_HEADER_SIZE (WORD_SIZE + GC_OBJECT_HEADER_SIZE)=0A=
=0A=
#define HIGH_BIT 0x80000000=0A=
#define NON_POINTERS_SHIFT 16=0A=
=0A=
/* Build the one word header for an object, given the number of words =
of=0A=
* nonpointers and the number of pointers.=0A=
*/=0A=
#define GC_objectHeader(np,p) (HIGH_BIT | ((np) << NON_POINTERS_SHIFT) =
| (p))=0A=
=0A=
/* Build the one word header for an array, given the number of bytes =
of=0A=
* nonpointers and the number of pointers.=0A=
*/=0A=
#define GC_arrayHeader(np,p) (((np) << NON_POINTERS_SHIFT) | (p))=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_isPointer */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* Returns true if p looks like a pointer, i.e. if p =3D 0 mod 4. */=0A=
static inline bool GC_isPointer(pointer p) {=0A=
return(0 =3D=3D ((word)p & 0x3));=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* wordAlign */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define wordAlign(p) ((1 + (((p) - 1) >> 2)) << 2)=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_frameLayout */=0A=
/* ------------------------------------------------- */=0A=
=0A=
typedef ushort *GC_offsets;=0A=
=0A=
typedef struct GC_frameLayout {=0A=
/* Number of bytes in frame, including space for return address. =
*/=0A=
ushort numBytes;=0A=
/* Offsets from stackTop pointing at bottom of frame at which =
pointers are=0A=
* located. =0A=
*/=0A=
GC_offsets offsets;=0A=
} GC_frameLayout;=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_state */=0A=
/* ------------------------------------------------- */=0A=
=0A=
typedef struct GC_state {=0A=
/* heap */=0A=
uint fromSize; /* size (bytes) of from space */=0A=
pointer base; /* start (lowest address) of from space */=0A=
pointer frontier; /* base <=3D frontier < limit */=0A=
pointer limit;=0A=
uint toSize; /* size (bytes) of to space */=0A=
pointer toBase; /* start (lowest address) of to space */=0A=
=0A=
/* globals */=0A=
uint numGlobals;=0A=
pointer *globals; /* an array of size numGlobals */=0A=
=0A=
/* locals */=0A=
pointer *locals; /* an array */=0A=
GC_offsets localOffsets; /* indices into locals */=0A=
=0A=
/* stack */=0A=
uint stackSize;=0A=
pointer stackTop;=0A=
pointer stackBottom;=0A=
pointer stackLimit; /* stackBottom + stackSize - maxFrameSize */=0A=
uint maxFrameIndex; /* 0 <=3D frameIndex < maxFrameIndex */=0A=
GC_frameLayout *frameLayouts;=0A=
uint maxFrameSize;=0A=
uint exnStack; /* An offset added to stackBottom that specifies =
=0A=
* where the top of the exnStack is.=0A=
*/=0A=
=0A=
int bytesLive; /* number of bytes copied by the most recent GC =
*/=0A=
=0A=
/* Resizing contols (expressed as ratios of heapSize / live data) =
*/=0A=
uint minLive; /* shrink heap when bytesLive * minLive < heapSize =
*/=0A=
uint maxLive; /* grow heap when bytesLive * maxLive > heapSize =
*/=0A=
uint liveRatio; /* when resizing, set heapSize to the smallest =
multiple=0A=
* of pages greater than liveRatio * numBytesLive=0A=
*/=0A=
bool useFixedHeap; /* if true, then don't resize the heap */=0A=
uint maxHeapSize; /* if (not useFixedHeap), then s->fromSize <=3D =
maxHeapSize=0A=
* and s->toSize <=3D maxHeapSize=0A=
*/=0A=
=0A=
/* print out a message at the start and end of each gc */=0A=
bool messages;=0A=
=0A=
/* only used during GC */=0A=
uint bytesRequested; /* How much must be free after GC in order for =
=0A=
* computation to proceed.=0A=
*/=0A=
uint recentStart; /* start time of most recent GC */=0A=
pointer front; /* front of toSpace queue */=0A=
pointer back; /* always points at the next avaiable word in toSpace=
*/=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* gc-summary statistics */=0A=
/* ------------------------------------------------- */=0A=
bool summary; /* print a summary of gc info when the program is done =
*/=0A=
ullong bytesAllocated;=0A=
ullong bytesCopied;=0A=
uint numGCs; =0A=
uint gcTime; /* total amount of time spent in gc in milliseconds =
*/=0A=
uint startTime; /* the time when GC_init or GC_loadWorld is called =
*/=0A=
uint maxHeapSizeSeen;=0A=
uint maxBytesLive;=0A=
=0A=
} GC_state;=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_init */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* GC_init must be called before doing any allocation.=0A=
* It must also be called before MLTON_init, GC_createStrings, and =
GC_createIntInfs.=0A=
* Before calling GC_init, you must initialize:=0A=
* numGlobals=0A=
* globals =0A=
* locals=0A=
* maxFrameIndex=0A=
* frameLayouts=0A=
* maxFrameSize=0A=
* useFixedHeap=0A=
* if (useFixedHeap)=0A=
* then fromSize should be set to the semispace size=0A=
* else fromSize be set to the initial amount of live data that will =
be placed=0A=
* into the heap (e.g. with GC_createStrings). The initial =
heap size will=0A=
* be set to fromSize * s->liveRatio.=0A=
* maxHeapSize should be set to 0 if you want it to be figured =
out=0A=
* automatically, otherwise set it to what you want.=0A=
*/=0A=
void GC_init(GC_state *state);=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_growStack */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* Grow the stack, copying the old stack to the new stack, updating the =
state,=0A=
* and updating all of the internal exnStack pointers.=0A=
*/=0A=
void GC_growStack(GC_state *state);=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_done */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* GC_done should be called after the program is done.=0A=
* munmaps heap and stack.=0A=
* Prints out gc statistics if s->summary is set.=0A=
*/=0A=
void GC_done(GC_state *state);=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_gc */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* Do a gc.=0A=
* Before calling GC_gc, must set=0A=
* locals=0A=
* localOffsets =0A=
* bytesRequested=0A=
*/=0A=
void GC_gc(GC_state *state);=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_size */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* Compute the size of the graph pointed to by root by performing a =
partial=0A=
* GC with root as the only root.=0A=
* Then, finish the GC.=0A=
* Returns the size of the graph pointed to by root.=0A=
*/=0A=
uint GC_size(GC_state *s, pointer root);=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_createStrings */=0A=
/* ------------------------------------------------- */=0A=
=0A=
struct GC_stringInit {=0A=
uint globalIndex;=0A=
char *str;=0A=
uint size;=0A=
};=0A=
=0A=
/* The inits array should be NULL terminated.=0A=
* I.E. the final element should be {0, NULL, 0}.=0A=
*/=0A=
void GC_createStrings(GC_state *state, struct GC_stringInit =
inits[]);=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_arrayNumElements */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* the array size is stored before the header */=0A=
=0A=
#define GC_arrayNumElements(a) (*((uint*)(a) - 2))=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_arrayNumElements */=0A=
/* ------------------------------------------------- */=0A=
=0A=
static inline void GC_arrayShrink(pointer array, uint numElements) {=0A=
GC_arrayNumElements(array) =3D numElements;=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_saveStack */=0A=
/* ------------------------------------------------- */=0A=
pointer GC_saveStack(GC_state *s);=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_restoreStack */=0A=
/* ------------------------------------------------- */=0A=
void GC_restoreStack(GC_state *s, pointer p);=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_saveWorld */=0A=
/* ------------------------------------------------- */=0A=
=0A=
void GC_saveWorld(GC_state *state, uint magic, pointer fileName, void =
(*saveGlobals)(FILE *file));=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC_loadWorld */=0A=
/* ------------------------------------------------- */=0A=
=0A=
void GC_loadWorld(GC_state *state, =0A=
uint magic,=0A=
char *fileName,=0A=
bool heapSizeCommandLine,=0A=
void (*loadGlobals)(FILE *file));=0A=
=0A=
#endif /* #ifndef _MLTON_GC_H */=0A=
------_=_NextPart_000_01BF27DC.5998CBDC
Content-Type: application/x-unknown-content-type-ProjectBuilder.h;
name="my-lib.h"
Content-Transfer-Encoding: quoted-printable
Content-Disposition: attachment;
filename="my-lib.h"
#ifndef _MY_LIB_H=0A=
#define _MY_LIB_H=0A=
=0A=
#include <stdarg.h>=0A=
#include <stdlib.h>=0A=
#include <unistd.h>=0A=
#include <stdio.h>=0A=
=0A=
/*=0A=
* The following definitions make C more amenable to a purist.=0A=
*/=0A=
#define bool int /* boolean type */=0A=
#define uint unsigned int /* short names for unsigned types */=0A=
#define ulong unsigned long=0A=
#define ullong unsigned long long /* GCC extension */=0A=
#define llong long long /* GCC extension */=0A=
#define uchar unsigned char=0A=
#define ushort unsigned short int=0A=
#define not ! /* logical negation operator */=0A=
#define and && /* logical conjunction */=0A=
#define or || /* logical disjunction */=0A=
#if defined(_WIN32)=0A=
//TRUE and FALSE are Windows constants!=0A=
#else=0A=
#define TRUE (0 =3D=3D 0)=0A=
#define FALSE (not TRUE)=0A=
#endif=0A=
#define loop while (TRUE) /* loop until break */=0A=
#define EOS '\0' /* end-of-string char */=0A=
#ifndef NULL=0A=
#define NULL 0 /* invalid pointer */=0A=
#endif=0A=
=0A=
#define string char*=0A=
=0A=
#define unless(p) if (not (p))=0A=
#define until(p) while (not (p))=0A=
#define cardof(a) (sizeof(a) / sizeof(*(a)))=0A=
#define endof(a) ((a) + cardof(a))=0A=
#define bitsof(a) (sizeof(a) * 8)=0A=
=0A=
/* issue error message and exit */=0A=
extern void die(char *fmt, ...);=0A=
=0A=
/* assertion failure routine */=0A=
extern void asfail(char *file, int line, char *prop);=0A=
/*=0A=
* Assertion verifier.=0A=
*/=0A=
#if NODEBUG=0A=
#define assert(p) ((void)0)=0A=
#else=0A=
#define assert(p) ((p) ? (void)0 : asfail(__FILE__, __LINE__, #p))=0A=
#endif=0A=
=0A=
#if defined(_WIN32)=0A=
// NO! Not the windows shared open function=0A=
//int sopen (char* szFileName, int nAccess, int nFlag, ...);=0A=
// sopen just stands for safe open here...=0A=
FILE *safeopen(char *fileName, char *mode);=0A=
#else=0A=
FILE *sopen(char *fileName, char *mode);=0A=
#endif=0A=
=0A=
/* safe version of fwrite */=0A=
void swrite(void *ptr, size_t size, size_t nmemb, FILE *file);=0A=
void swriteUint(uint n, FILE *file);=0A=
=0A=
/* safe version of fread */=0A=
void sread(void *ptr, size_t size, size_t nmemb, FILE *file);=0A=
uint sreadUint(FILE *file);=0A=
=0A=
/* Return a statically allocated comma separated string */=0A=
string intToCommaString(int n);=0A=
string uintToCommaString(uint n);=0A=
string ullongToCommaString(ullong n);=0A=
=0A=
#endif=0A=
------_=_NextPart_000_01BF27DC.5998CBDC
Content-Type: application/x-unknown-content-type-ProjectBuilder.h;
name="mlton-lib.h"
Content-Transfer-Encoding: quoted-printable
Content-Disposition: attachment;
filename="mlton-lib.h"
/* Copyright (C) 1997-1999 NEC Research Institute.=0A=
* Please see the file LICENSE for license information.=0A=
*/=0A=
#ifndef _MLTON_LIB_H=0A=
#define _MLTON_LIB_H=0A=
=0A=
#include <dirent.h>=0A=
#include <errno.h>=0A=
#include <fcntl.h>=0A=
#include "SDL_mangle.h"=0A=
=0A=
#if defined(_WIN32)=0A=
#include <windows.h>=0A=
#else=0A=
#include <grp.h>=0A=
#endif=0A=
=0A=
#include <math.h>=0A=
=0A=
#if defined(_WIN32)=0A=
#else=0A=
#include <pwd.h>=0A=
#endif=0A=
=0A=
#include <signal.h>=0A=
#include <stdio.h>=0A=
#include <sys/stat.h>=0A=
#include <sys/time.h>=0A=
#include <sys/times.h>=0A=
#include <sys/types.h>=0A=
=0A=
#if defined(_WIN32)=0A=
#else=0A=
#include <sys/utsname.h>=0A=
#include <sys/wait.h>=0A=
#include <termios.h>=0A=
#endif=0A=
=0A=
#include <time.h>=0A=
#include <unistd.h>=0A=
=0A=
#if defined(_WIN32)=0A=
#include <sys/utime.h>=0A=
#else=0A=
#include <utime.h>=0A=
#endif=0A=
=0A=
#include "gc.h"=0A=
#include "int-inf.h"=0A=
#include "my-lib.h"=0A=
#include "mlton-posix.h"=0A=
=0A=
#ifndef GC_EVERY_CHECK=0A=
#define GC_EVERY_CHECK FALSE=0A=
#endif=0A=
=0A=
#ifndef INSTRUMENT=0A=
#define INSTRUMENT FALSE=0A=
#endif=0A=
=0A=
#ifndef DETECT_OVERFLOW=0A=
#define DETECT_OVERFLOW FALSE=0A=
#endif=0A=
=0A=
typedef uint cpointer;=0A=
=0A=
typedef struct MLTON_state {=0A=
uint commandName;=0A=
int argc;=0A=
uint argv;=0A=
#if defined(_WIN32)=0A=
uint environment;// Don't ask! =0A=
#else=0A=
uint environ;=0A=
#endif=0A=
=0A=
/* used by saveWorld */=0A=
bool isOriginal;=0A=
=0A=
/* The magic number required for a valid world file. */=0A=
uint magic;=0A=
=0A=
GC_state *gcState;=0A=
} MLTON_state;=0A=
=0A=
#define MLTON_argc() mltonState.argc=0A=
#define MLTON_argv() mltonState.argv=0A=
#define MLTON_commandName() mltonState.commandName=0A=
=0A=
/* print a bug message and exit(2) */=0A=
void MLTON_bug(string msg);=0A=
=0A=
/* initialize the machine */=0A=
void MLTON_init(int argc, =0A=
char **argv,=0A=
MLTON_state *MLTON_state,=0A=
uint magic,=0A=
/* Read the globals from the world file. Is NULL if a world =
file=0A=
* cannot be loaded.=0A=
*/=0A=
void (*loadGlobals)(FILE *file));=0A=
=0A=
#define MLTON_globals \=0A=
static MLTON_state mltonState; \=0A=
static GC_state gcState; \=0A=
static int sizeRes; \=0A=
static pointer stackRes; \=0A=
static void (*nextChunk)(); \=0A=
static int nextFun;=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Counters */=0A=
/* ------------------------------------------------- */=0A=
=0A=
extern ullong MLTON_numTrampolines;=0A=
extern ullong MLTON_numLimitChecks;=0A=
extern ullong MLTON_numInterReturns;=0A=
extern ullong MLTON_numReturns;=0A=
=0A=
extern ullong MLTON_XmlKnown;=0A=
extern ullong MLTON_XmlUnknown;=0A=
#define MLTON_incXmlKnown() MLTON_XmlKnown++=0A=
#define MLTON_incXmlUnknown() MLTON_XmlUnknown++=0A=
=0A=
extern ullong MLTON_SxmlKnown;=0A=
extern ullong MLTON_SxmlUnknown;=0A=
#define MLTON_incSxmlKnown() MLTON_SxmlKnown++=0A=
#define MLTON_incSxmlUnknown() MLTON_SxmlUnknown++=0A=
=0A=
extern ullong MLTON_CpsKnown;=0A=
extern ullong MLTON_CpsUnknown;=0A=
#define MLTON_incCpsKnown() MLTON_CpsKnown++=0A=
#define MLTON_incCpsUnknown() MLTON_CpsUnknown++=0A=
=0A=
extern ullong MLTON_CpsCall;=0A=
extern ullong MLTON_CpsLoop;=0A=
#define MLTON_incCpsCall() MLTON_CpsCall++=0A=
#define MLTON_incCpsLoop() MLTON_CpsLoop++=0A=
=0A=
extern ullong MLTON_CpsDispatch;=0A=
#define MLTON_incCpsDispatch() MLTON_CpsDispatch++=0A=
extern ullong MLTON_CpsCoerce;=0A=
#define MLTON_incCpsCoerce() MLTON_CpsCoerce++=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Chunk */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_chunk(name) \=0A=
static void name () { \=0A=
char *stackTop =3D gcState.stackTop; \=0A=
pointer frontier =3D gcState.frontier;=0A=
=0A=
#define MLTON_chunkSwitch \=0A=
top: \=0A=
switch (nextFun) {=0A=
=0A=
#define MLTON_endChunkSwitch \=0A=
default: \=0A=
/* inter chunk return */ \=0A=
if (INSTRUMENT) \=0A=
MLTON_numInterReturns++; \=0A=
nextChunk =3D nextChunks[nextFun]; \=0A=
leaveChunk: \=0A=
gcState.frontier =3D frontier; \=0A=
gcState.stackTop =3D stackTop; \=0A=
return; \=0A=
} /* end switch (nextFun) */=0A=
=0A=
#define MLTON_endChunk \=0A=
} /* end chunk */=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* main */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#if defined(_WIN320)=0A=
// This is not used now (because of _WIN320), but this is how=0A=
// the main function might be coded, if it is to be done without=0A=
// requiring SDL_mangle.h=0A=
int WinCountArgs(LPSTR lpCmdLine);=0A=
char **WinArgv(LPSTR lpCmdLine);=0A=
=0A=
#define MLTON_main(ufh,fs,bl,mfs,ng,gs,mfi,magic,lg,nii,mc,ml,sc,sl) =
\=0A=
int WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPSTR =
lpCmdLine, int nShowCmd) { \=0A=
gcState.useFixedHeap =3D ufh; \=0A=
gcState.fromSize =3D fs; \=0A=
gcState.bytesLive =3D bl; \=0A=
gcState.maxFrameSize =3D mfs; \=0A=
gcState.numGlobals =3D ng; \=0A=
gcState.globals =3D gs; \=0A=
gcState.maxFrameIndex =3D mfi; \=0A=
gcState.frameLayouts =3D frameLayouts; \=0A=
mltonState.gcState =3D &gcState; \=0A=
MLTON_init(WinCountArgs(lpCmdLine), WinArgv(lpCmdLine), &mltonState, =
magic, lg); \=0A=
if (mltonState.isOriginal) { \=0A=
/* The (nii > 0) check is so that the C compiler can \=0A=
* eliminate the call if there are no IntInfs and we \=0A=
* then won't have to link in with the IntInf stuff. \=0A=
*/ \=0A=
if (nii > 0) \=0A=
MLTON_createIntInfs(&gcState, intInfInits); \=0A=
GC_createStrings(&gcState, stringInits); \=0A=
MLTON_prepFarJump(mc, ml); \=0A=
} else { \=0A=
MLTON_prepFarJump(sc, sl); \=0A=
} \=0A=
/* Trampoline */ \=0A=
while (1) { \=0A=
if (INSTRUMENT) \=0A=
MLTON_numTrampolines++; \=0A=
(*nextChunk)(); \=0A=
} \=0A=
}=0A=
#else=0A=
#define MLTON_main(ufh,fs,bl,mfs,ng,gs,mfi,magic,lg,nii,mc,ml,sc,sl) =
\=0A=
int main(int argc, char **argv) { \=0A=
gcState.useFixedHeap =3D ufh; \=0A=
gcState.fromSize =3D fs; \=0A=
gcState.bytesLive =3D bl; \=0A=
gcState.maxFrameSize =3D mfs; \=0A=
gcState.numGlobals =3D ng; \=0A=
gcState.globals =3D gs; \=0A=
gcState.maxFrameIndex =3D mfi; \=0A=
gcState.frameLayouts =3D frameLayouts; \=0A=
mltonState.gcState =3D &gcState; \=0A=
MLTON_init(argc, argv, &mltonState, magic, lg); \=0A=
if (mltonState.isOriginal) { \=0A=
/* The (nii > 0) check is so that the C compiler can \=0A=
* eliminate the call if there are no IntInfs and we \=0A=
* then won't have to link in with the IntInf stuff. \=0A=
*/ \=0A=
if (nii > 0) \=0A=
MLTON_createIntInfs(&gcState, intInfInits); \=0A=
GC_createStrings(&gcState, stringInits); \=0A=
MLTON_prepFarJump(mc, ml); \=0A=
} else { \=0A=
MLTON_prepFarJump(sc, sl); \=0A=
} \=0A=
/* Trampoline */ \=0A=
while (1) { \=0A=
if (INSTRUMENT) \=0A=
MLTON_numTrampolines++; \=0A=
(*nextChunk)(); \=0A=
} \=0A=
}=0A=
#endif=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Halt */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_halt(x) \=0A=
{ \=0A=
int status; \=0A=
if (INSTRUMENT) \=0A=
fprintf(stderr, "MLTON_numTrampolines =3D =
%Ld\nMLTON_numReturns =3D %Ld\nMLTON_numInterReturns =3D =
%Ld\nMLTON_numLimitChecks =3D %Ld\nMLTON_XmlKnown =3D =
%Ld\nMLTON_XmlUnknown =3D %Ld\nMLTON_SxmlKnown =3D =
%Ld\nMLTON_SxmlUnknown =3D %Ld\nMLTON_CpsKnown =3D =
%Ld\nMLTON_CpsUnknown =3D %Ld\nMLTON_CpsCall =3D %Ld\nMLTON_CpsLoop =3D =
%Ld\nMLTON_CpsDispatch =3D %Ld\nMLTON_CpsCoerce =3D %Ld\n", \=0A=
MLTON_numTrampolines, MLTON_numReturns, \=0A=
MLTON_numInterReturns, MLTON_numLimitChecks, \=0A=
MLTON_XmlKnown, MLTON_XmlUnknown, \=0A=
MLTON_SxmlKnown, MLTON_SxmlUnknown, \=0A=
MLTON_CpsKnown, MLTON_CpsUnknown, \=0A=
MLTON_CpsCall, MLTON_CpsLoop, \=0A=
MLTON_CpsDispatch, MLTON_CpsCoerce); \=0A=
gcState.frontier =3D frontier; \=0A=
gcState.stackTop =3D stackTop; \=0A=
status =3D (x); \=0A=
GC_done(&gcState); \=0A=
exit(status); \=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* GC */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_beforeGC \=0A=
gc: \=0A=
gcState.locals =3D locals; \=0A=
gcState.frontier =3D frontier; \=0A=
gcState.stackTop =3D stackTop;=0A=
=0A=
#define MLTON_GC \=0A=
GC_gc(&gcState); \=0A=
stackTop =3D gcState.stackTop; \=0A=
frontier =3D gcState.frontier;=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* farJump */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_prepFarJump(c,l) \=0A=
do { \=0A=
nextChunk =3D c; \=0A=
nextFun =3D l ## _index; \=0A=
} while (0)=0A=
=0A=
#define MLTON_farJump(c,l) \=0A=
do { \=0A=
MLTON_prepFarJump(c,l); \=0A=
goto leaveChunk; \=0A=
} while (0)=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Return */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_return \=0A=
if (INSTRUMENT) \=0A=
MLTON_numReturns++; \=0A=
nextFun =3D *(int*)stackTop; \=0A=
goto top;=0A=
=0A=
#define MLTON_raise \=0A=
stackTop =3D gcState.stackBottom + gcState.exnStack; \=0A=
nextFun =3D *(int*)stackTop; \=0A=
goto top;=0A=
=0A=
#define MLTON_saveExnStack(offset) \=0A=
{ \=0A=
pointer p; \=0A=
p =3D stackTop + (offset); \=0A=
*(uint*)(p + WORD_SIZE) =3D gcState.exnStack; \=0A=
gcState.exnStack =3D p - gcState.stackBottom; \=0A=
}=0A=
=0A=
#define MLTON_restoreExnStack(offset) \=0A=
gcState.exnStack =3D *(uint*)(stackTop + (offset) + WORD_SIZE); \=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Limit Check */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_limitCheck(bytes,localIndices,frameSize,ret) \=0A=
if (INSTRUMENT) \=0A=
MLTON_numLimitChecks++; \=0A=
if (GC_EVERY_CHECK || frontier + (bytes) >=3D gcState.limit) { \=0A=
if (gcState.messages) fprintf(stderr, "gc at line %d of %s\n", \=0A=
__LINE__, \=0A=
__FILE__); \=0A=
gcState.bytesRequested =3D (bytes); \=0A=
gcState.localOffsets =3D (localIndices); \=0A=
stackTop +=3D (frameSize); \=0A=
*(uint*)stackTop =3D (ret ## _index); \=0A=
goto gc; \=0A=
ret: \=0A=
stackTop -=3D (frameSize); \=0A=
}=0A=
=0A=
#define MLTON_stackOverflowCheck \=0A=
if (stackTop >=3D gcState.stackLimit) { \=0A=
gcState.stackTop =3D stackTop; \=0A=
GC_growStack(&gcState); \=0A=
stackTop =3D gcState.stackTop; \=0A=
}=0A=
=0A=
/* The extra POINTER_SIZE added to frontier is so space is allocated =
for the=0A=
* forwarding pointer in zero length arrays.=0A=
*/=0A=
#define MLTON_allocArrayNoPointers(dst,numElts,bytesPerElt) \=0A=
*(word*)frontier =3D (numElts); \=0A=
*(word*)(frontier + WORD_SIZE) =3D \=0A=
GC_arrayHeader((bytesPerElt), 0); \=0A=
(dst) =3D frontier + 2 * WORD_SIZE; \=0A=
frontier =3D (dst) + ((0 =3D=3D numElts) ? POINTER_SIZE : \=0A=
wordAlign((numElts) * (bytesPerElt)));=0A=
=0A=
#define MLTON_allocArrayPointers(dst,numElts,numPointers) \=0A=
*(word*)frontier =3D (numElts); \=0A=
*(word*)(frontier + WORD_SIZE) =3D \=0A=
GC_arrayHeader(0, (numPointers)); \=0A=
(dst) =3D frontier + 2 * WORD_SIZE; \=0A=
frontier =3D (dst) + ((0 =3D=3D (numElts)) ? POINTER_SIZE \=0A=
: (numElts) * (numPointers) * POINTER_SIZE);\=0A=
{ \=0A=
word *p; \=0A=
for (p =3D (word*) (dst); p < (word*) frontier; ++p) \=0A=
*p =3D 0x1; \=0A=
}=0A=
=0A=
/* ---------------------------------------------------------------- =
*/=0A=
/* Basis Library Primitives =
*/=0A=
/* ---------------------------------------------------------------- =
*/=0A=
=0A=
void MLTON_overflow();=0A=
=0A=
/* Used to "cast" at the ML level between two different ML types that =
we=0A=
* know have the same C representation.=0A=
*/=0A=
#define MLTON_id(x) x=0A=
=0A=
/* Used by polymorphic equality to implement equal on ground types=0A=
* like char, int, word, and on ref cells.=0A=
* It is emitted by backend/machine.fun.=0A=
*/=0A=
#define MLTON_eq(x,y) ((x) =3D=3D (y))=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Array */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_Array_length GC_arrayNumElements=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Byte */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_Byte_byteToChar MLTON_id=0A=
#define MLTON_Byte_charToByte MLTON_id=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Char */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_Char_ord(c) ((int)(c))=0A=
#define MLTON_Char_chr(c) ((uchar)(c))=0A=
#define MLTON_Char_gt(c1,c2) ((c1) > (c2))=0A=
#define MLTON_Char_ge(c1,c2) ((c1) >=3D (c2))=0A=
#define MLTON_Char_lt(c1,c2) ((c1) < (c2))=0A=
#define MLTON_Char_le(c1,c2) ((c1) <=3D (c2))=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* IEEEReal */=0A=
/* ------------------------------------------------- */=0A=
=0A=
void setRoundingMode(int mode);=0A=
int getRoundingMode();=0A=
=0A=
#define MLTON_IEEEReal_setRoundingMode setRoundingMode=0A=
#define MLTON_IEEEReal_getRoundingMode getRoundingMode=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Int */=0A=
/* ------------------------------------------------- */=0A=
=0A=
int intQuot(int numerator, int denominator);=0A=
int intRem(int numerator, int denominator);=0A=
=0A=
#if DETECT_OVERFLOW=0A=
#if defined(_WIN32)=0A=
#else=0A=
int MLTON_Int_addCheck(int n1, int n2);=0A=
int MLTON_Int_subCheck(int n1, int n2);=0A=
int MLTON_Int_mulCheck(int n1, int n2);=0A=
#endif=0A=
#define MLTON_Int_add MLTON_Int_addCheck=0A=
#define MLTON_Int_sub MLTON_Int_subCheck=0A=
#define MLTON_Int_mul MLTON_Int_mulCheck=0A=
#else=0A=
#define MLTON_Int_add(n1,n2) ((n1) + (n2))=0A=
#define MLTON_Int_sub(n1,n2) ((n1) - (n2))=0A=
#define MLTON_Int_mul(n1,n2) ((n1) * (n2))=0A=
#endif=0A=
#define MLTON_Int_neg(n) (-(n))=0A=
#define MLTON_Int_quot intQuot=0A=
#define MLTON_Int_rem intRem=0A=
#define MLTON_Int_gt(n1,n2) ((n1) > (n2))=0A=
#define MLTON_Int_ge(n1,n2) ((n1) >=3D (n2))=0A=
#define MLTON_Int_lt(n1,n2) ((n1) < (n2))=0A=
#define MLTON_Int_le(n1,n2) ((n1) <=3D (n2))=0A=
#define MLTON_Int_geu(x,y) ((uint)(x) >=3D (uint)(y))=0A=
#define MLTON_Int_gtu(x,y) ((uint)(x) > (uint)(y))=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Int31 */=0A=
/* ------------------------------------------------- */=0A=
/* Int31 is currently not implemented */=0A=
=0A=
/* #define MLTON_Int31_toInt(n) ((n) >> 1) */=0A=
/* #define MLTON_Int31_fromInt(n) ((n) << 1) */=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* IntInf */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_IntInf_equal MLTON_intInfEqual=0A=
#define MLTON_IntInf_fromString MLTON_intInfFromString=0A=
#define MLTON_IntInf_toWord(i) ((uint)(i))=0A=
#define MLTON_IntInf_fromWord(w) ((pointer)(w))=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Real */=0A=
/* ------------------------------------------------- */=0A=
=0A=
double round(double d);=0A=
int signBit(double d);=0A=
int isNan(double d);=0A=
int isFinite(double d);=0A=
int isNormal(double d);=0A=
=0A=
/* returned by class */=0A=
#define NAN_QUIET 0=0A=
#define NAN_SIGNALLING 1=0A=
#define INF 2=0A=
#define ZERO 3=0A=
#define NORMAL 4=0A=
#define SUBNORMAL 5=0A=
int class(double d);=0A=
=0A=
#define MLTON_Real_Math_pi M_PI=0A=
#define MLTON_Real_Math_e M_E=0A=
#define MLTON_Real_Math_cos cos=0A=
#define MLTON_Real_Math_sin sin=0A=
#define MLTON_Real_Math_tan tan=0A=
#define MLTON_Real_Math_cosh cosh=0A=
#define MLTON_Real_Math_sinh sinh=0A=
#define MLTON_Real_Math_tanh tanh=0A=
#define MLTON_Real_Math_acos acos=0A=
#define MLTON_Real_Math_asin asin=0A=
#define MLTON_Real_Math_atan atan=0A=
#define MLTON_Real_Math_atan2 atan2=0A=
#define MLTON_Real_Math_ln log=0A=
#define MLTON_Real_Math_log10 log10=0A=
#define MLTON_Real_Math_pow pow=0A=
#define MLTON_Real_Math_sqrt sqrt=0A=
#define MLTON_Real_Math_exp exp=0A=
#define MLTON_Real_posInf HUGE_VAL=0A=
#define MLTON_Real_add(x,y) ((x) + (y))=0A=
#define MLTON_Real_sub(x,y) ((x) - (y))=0A=
#define MLTON_Real_mul(x,y) ((x) * (y))=0A=
#define MLTON_Real_div(x,y) ((x) / (y))=0A=
#define MLTON_Real_muladd(x,y,z) ((x) * (y) + (z))=0A=
#define MLTON_Real_mulsub(x,y,z) ((x) * (y) - (z))=0A=
#define MLTON_Real_neg(x) (-(x))=0A=
#define MLTON_Real_abs fabs=0A=
#define MLTON_Real_isNan isNan=0A=
#define MLTON_Real_signBit signBit=0A=
#define MLTON_Real_copySign copySign=0A=
#define MLTON_Real_gt(x1,x2) ((x1) > (x2))=0A=
#define MLTON_Real_ge(x1,x2) ((x1) >=3D (x2))=0A=
#define MLTON_Real_lt(x1,x2) ((x1) < (x2))=0A=
#define MLTON_Real_le(x1,x2) ((x1) <=3D (x2))=0A=
#define MLTON_Real_equal(x1,x2) ((x1) =3D=3D (x2))=0A=
#define MLTON_Real_nequal(x1,x2) ((x1) !=3D (x2))=0A=
#define MLTON_Real_qequal(x1,x2) (!((x1) !=3D (x2))=0A=
#define MLTON_Real_isFinite isFinite=0A=
#define MLTON_Real_isNormal isNormal=0A=
#define MLTON_Real_frexp frexp=0A=
#define MLTON_Real_ldexp ldexp=0A=
#define MLTON_Real_modf modf=0A=
#define MLTON_Real_class class=0A=
#define MLTON_Real_fromInt(n) ((double)(n))=0A=
#define MLTON_Real_toInt(x) ((int)(x))=0A=
#define MLTON_Real_round round=0A=
=0A=
#define MLTON_sprintf(buf, fmt, x) sprintf(buf, (char*) fmt, x)=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Pointers */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_isNull(x) (void*)(x) =3D=3D NULL=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* MLton */=0A=
/* ------------------------------------------------- */=0A=
=0A=
uint MLTON_MLton_random();=0A=
=0A=
#define MLTON_MLton_gcMessages(b) \=0A=
gcState.messages =3D b=0A=
=0A=
#define MLTON_MLton_gcSummary(b) \=0A=
gcState.summary =3D b=0A=
=0A=
#define MLTON_MLton_size(z) ( \=0A=
gcState.frontier =3D frontier, \=0A=
gcState.stackTop =3D stackTop, \=0A=
sizeRes =3D GC_size(&gcState, (z)), \=0A=
frontier =3D gcState.frontier, \=0A=
stackTop =3D gcState.stackTop, \=0A=
sizeRes)=0A=
=0A=
#define MLTON_MLton_saveWorld(file) ( \=0A=
mltonState.isOriginal ? \=0A=
( \=0A=
gcState.frontier =3D frontier, \=0A=
gcState.stackTop =3D stackTop, \=0A=
GC_saveWorld(&gcState, mltonState.magic, \=0A=
(file), &saveGlobals), \=0A=
frontier =3D gcState.frontier, \=0A=
stackTop =3D gcState.stackTop, \=0A=
mltonState.isOriginal =3D TRUE, \=0A=
TRUE \=0A=
) \=0A=
: \=0A=
( \=0A=
mltonState.isOriginal =3D TRUE, \=0A=
FALSE \=0A=
) \=0A=
)=0A=
=0A=
#define MLTON_MLton_saveStack() ( \=0A=
gcState.frontier =3D frontier, \=0A=
gcState.stackTop =3D stackTop, \=0A=
stackRes =3D GC_saveStack(&gcState), \=0A=
frontier =3D gcState.frontier, \=0A=
stackTop =3D gcState.stackTop, \=0A=
stackRes)=0A=
=0A=
#define MLTON_MLton_restoreStack(s) \=0A=
gcState.frontier =3D frontier; \=0A=
gcState.stackTop =3D stackTop; \=0A=
GC_restoreStack(&gcState, s); \=0A=
frontier =3D gcState.frontier; \=0A=
stackTop =3D gcState.stackTop; \=0A=
MLTON_return=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* String */=0A=
/* ------------------------------------------------- */=0A=
=0A=
int stringEqual(char * s1, char * s2);=0A=
=0A=
#define MLTON_String_equal stringEqual=0A=
#define MLTON_String_size GC_arrayNumElements=0A=
=0A=
#define MLTON_cs_sub(p,i) (((char*)(p))[i])=0A=
#define MLTON_cs_update(p,i,x) (((char*)(p))[i] =3D (x))=0A=
#define MLTON_css_sub(p,i) ((uint)(((char**)(p))[i]))=0A=
#define MLTON_cast_cs(p) ((char*)(p))=0A=
#define MLTON_cast_css(p) ((char**)(p))=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* System */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_tmpnam(s) ((uint)tmpnam((char*)(s)))=0A=
=0A=
/* ---------------------------------- */=0A=
/* Date */=0A=
/* ---------------------------------- */=0A=
=0A=
void MLTON_now(pointer sec, pointer usec);=0A=
=0A=
extern struct tm MLTON_tm;=0A=
=0A=
#define MLTON_asctime(z) (uint)(asctime((struct tm*)(z)))=0A=
#define MLTON_localtime(t) (uint)(localtime((time_t*)(t)))=0A=
#define MLTON_gmtime(t) (uint)(gmtime((time_t*)(t)))=0A=
#define MLTON_mktime(t) mktime((struct tm*)(t))=0A=
=0A=
#define MLTON_strftime(buf, n, fmt, z) strftime((char*)(buf), (n), =
(char*)(fmt), (struct tm*)(z))=0A=
=0A=
int MLTON_localoffset();=0A=
=0A=
#define MLTON_tm_sec(p) (((struct tm*)(p))->tm_sec)=0A=
#define MLTON_tm_min(p) (((struct tm*)(p))->tm_min)=0A=
#define MLTON_tm_hour(p) (((struct tm*)(p))->tm_hour)=0A=
#define MLTON_tm_mday(p) (((struct tm*)(p))->tm_mday)=0A=
#define MLTON_tm_mon(p) (((struct tm*)(p))->tm_mon)=0A=
#define MLTON_tm_year(p) (((struct tm*)(p))->tm_year)=0A=
#define MLTON_tm_wday(p) (((struct tm*)(p))->tm_wday)=0A=
#define MLTON_tm_yday(p) (((struct tm*)(p))->tm_yday)=0A=
#define MLTON_tm_isdst(p) (((struct tm*)(p))->tm_isdst)=0A=
=0A=
#define MLTON_set_tm_sec(p,x) ((struct tm*)(p))->tm_sec =3D (x)=0A=
#define MLTON_set_tm_min(p,x) ((struct tm*)(p))->tm_min =3D (x)=0A=
#define MLTON_set_tm_hour(p,x) ((struct tm*)(p))->tm_hour =3D (x)=0A=
#define MLTON_set_tm_mday(p,x) ((struct tm*)(p))->tm_mday =3D (x)=0A=
#define MLTON_set_tm_mon(p,x) ((struct tm*)(p))->tm_mon =3D (x)=0A=
#define MLTON_set_tm_year(p,x) ((struct tm*)(p))->tm_year =3D (x)=0A=
#define MLTON_set_tm_wday(p,x) ((struct tm*)(p))->tm_wday =3D (x)=0A=
#define MLTON_set_tm_yday(p,x) ((struct tm*)(p))->tm_yday =3D (x)=0A=
#define MLTON_set_tm_isdst(p,x) ((struct tm*)(p))->tm_isdst =3D (x)=0A=
=0A=
/* ---------------------------------- */=0A=
/* Time */=0A=
/* ---------------------------------- */=0A=
=0A=
#if defined(_WIN32)=0A=
#else=0A=
extern struct timeval MLTON_timeval;=0A=
#define MLTON_timeval_sec(p) ((int)(((struct timeval*)(p))->tv_sec))=0A=
#define MLTON_timeval_usec(p) ((int)(((struct =
timeval*)(p))->tv_usec))=0A=
#define MLTON_gettimeofday(p) ((int)(gettimeofday((struct timeval*)(p), =
(struct timezone*)NULL)))=0A=
#endif=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Vector */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_Vector_length GC_arrayNumElements=0A=
#define MLTON_Vector_fromArray MLTON_id=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Word */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_Word8_toInt(w) ((int)(w))=0A=
#define MLTON_Word8_toIntX(x) ((int)(signed char)(x))=0A=
#define MLTON_Word8_fromInt(x) ((uchar)(x))=0A=
#define MLTON_Word8_toLargeWord(w) ((uint)(w))=0A=
#define MLTON_Word8_toLargeWordX(x) ((uint)(signed char)(x))=0A=
#define MLTON_Word8_fromLargeWord(w) ((uchar)(w))=0A=
#define MLTON_Word8_orb(w1,w2) ((w1) | (w2))=0A=
#define MLTON_Word8_xorb(w1,w2) ((w1) ^ (w2))=0A=
#define MLTON_Word8_andb(w1,w2) ((w1) & (w2))=0A=
#define MLTON_Word8_notb(w) (~(w))=0A=
#define MLTON_Word8_lshift(w,s) ((s) < 8 ? (w) << (s) : 0)=0A=
#define MLTON_Word8_rshift(w,s) ((s) < 8 ? (w) >> (s) : 0)=0A=
#define MLTON_Word8_add(w1,w2) ((w1) + (w2))=0A=
#define MLTON_Word8_sub(w1,w2) ((w1) - (w2))=0A=
#define MLTON_Word8_mul(w1,w2) ((w1) * (w2))=0A=
#define MLTON_Word8_div(w1,w2) ((w1) / (w2))=0A=
#define MLTON_Word8_mod(w1,w2) ((w1) % (w2))=0A=
#define MLTON_Word8_gt(w1,w2) ((w1) > (w2))=0A=
#define MLTON_Word8_ge(w1,w2) ((w1) >=3D (w2))=0A=
#define MLTON_Word8_lt(w1,w2) ((w1) < (w2))=0A=
#define MLTON_Word8_le(w1,w2) ((w1) <=3D (w2))=0A=
=0A=
#define MLTON_Word32_toIntX(x) ((int)(x))=0A=
#define MLTON_Word32_fromInt(x) ((uint)(x))=0A=
#define MLTON_Word32_orb(w1,w2) ((w1) | (w2))=0A=
#define MLTON_Word32_xorb(w1,w2) ((w1) ^ (w2))=0A=
#define MLTON_Word32_andb(w1,w2) ((w1) & (w2))=0A=
#define MLTON_Word32_notb(w) (~(w))=0A=
#define MLTON_Word32_lshift(w,s) ((s) < 32 ? (w) << (s) : 0)=0A=
#define MLTON_Word32_rshift(w,s) ((s) < 32 ? (w) >> (s) : 0)=0A=
#define MLTON_Word32_add(w1,w2) ((w1) + (w2))=0A=
#define MLTON_Word32_sub(w1,w2) ((w1) - (w2))=0A=
#define MLTON_Word32_mul(w1,w2) ((w1) * (w2))=0A=
#define MLTON_Word32_div(w1,w2) ((w1) / (w2))=0A=
#define MLTON_Word32_mod(w1,w2) ((w1) % (w2))=0A=
#define MLTON_Word32_gt(w1,w2) ((w1) > (w2))=0A=
#define MLTON_Word32_ge(w1,w2) ((w1) >=3D (w2))=0A=
#define MLTON_Word32_lt(w1,w2) ((w1) < (w2))=0A=
#define MLTON_Word32_le(w1,w2) ((w1) <=3D (w2))=0A=
=0A=
/* Can't use a macro with >> for these because ANSI C doesn't guarantee =
=0A=
* sign extension.=0A=
*=0A=
* #define MLTON_Word8_arshift(w,s) ((signed char)(w) >> ((s) < 8 ? (s) =
: 7))=0A=
*/=0A=
/* I've included the macro for Word32_arshift even though it isn't ANSI =
and=0A=
* may fail because using a procedure call slows down IntInf by a =
factor of 2.=0A=
*/=0A=
#define MLTON_Word32_arshift(w,s) ((int)(w) >> ((s) < 32 ? (s) : =
31))=0A=
/*#define MLTON_Word32_arshift MLTON_Word32_arshiftAsm */=0A=
uint MLTON_Word32_arshiftAsm(uint w, uint s);=0A=
=0A=
uchar MLTON_Word8_arshift(uchar w, uint s);=0A=
=0A=
#endif /* #ifndef _MLTON_LIB_H */=0A=
=0A=
------_=_NextPart_000_01BF27DC.5998CBDC
Content-Type: application/x-unknown-content-type-ProjectBuilder.c;
name="mlton-posix.c"
Content-Transfer-Encoding: quoted-printable
Content-Disposition: attachment;
filename="mlton-posix.c"
/* Copyright (C) 1997-1999 NEC Research Institute.=0A=
* Please see the file LICENSE for license information.=0A=
*/=0A=
#include "mlton-lib.h"=0A=
=0A=
#if defined(_WIN32)=0A=
#else=0A=
struct tms MLTON_tms;=0A=
#endif=0A=
=0A=
struct stat MLTON_stat;=0A=
=0A=
struct utimbuf MLTON_utimbuf;=0A=
=0A=
#if defined(_WIN32)=0A=
#else=0A=
struct utsname MLTON_utsname;=0A=
=0A=
struct flock MLTON_flock;=0A=
=0A=
struct termios MLTON_termios;=0A=
#endif=0A=
=0A=
/* Right now this is messy because mlton has no way of dealing with =
unsigned =0A=
* shorts (i.e. gid_t).=0A=
*/=0A=
#if defined(_WIN32)=0A=
#else=0A=
int MLTON_getgroups(pointer groups) {=0A=
int i, result;=0A=
gid_t groupList[MLTON_numgroups];=0A=
=0A=
result =3D getgroups(MLTON_numgroups, groupList);=0A=
=0A=
for (i =3D 0; i < result; i++)=0A=
((uint*)groups)[i] =3D groupList[i];=0A=
=0A=
return result;=0A=
}=0A=
#endif=0A=
=0A=
#if defined(_WIN32)=0A=
//FIXME: I don't know how this is supposed to work, but=0A=
// this windows function might be useful:=0A=
// WinExec(name, SW_SHOWNORMAL);=0A=
=0A=
// Or for a less simple version, which I don't know how really =
works:=0A=
//CreateProcess(name, NULL, NULL, NULL, FALSE, 0,=0A=
// NULL, NULL,=0A=
// NULL/* May not be NULL */,=0A=
// NULL/* May not be NULL */);=0A=
#else=0A=
int MLTON_exec(pointer p, pointer a) {=0A=
char *path, *saved, **args;=0A=
int n, result;=0A=
=0A=
path =3D (char*)p;=0A=
args =3D (char**)a;=0A=
n =3D GC_arrayNumElements(args) - 1;=0A=
saved =3D args[n];=0A=
args[n] =3D (char*)NULL;=0A=
result =3D execv(path, args);=0A=
/* exec failed */=0A=
args[n] =3D saved;=0A=
return result;=0A=
}=0A=
=0A=
int MLTON_exece(pointer p, pointer a, pointer e) {=0A=
char *path, *asaved, *esaved, **args, **env;=0A=
int an, en, result;=0A=
=0A=
path =3D (char*)p;=0A=
args =3D (char**)a;=0A=
env =3D (char**)e;=0A=
an =3D GC_arrayNumElements(args) - 1;=0A=
asaved =3D args[an];=0A=
en =3D GC_arrayNumElements(env) - 1;=0A=
esaved =3D env[en];=0A=
args[an] =3D (char*)NULL;=0A=
env[en] =3D (char*)NULL;=0A=
result =3D execve(path, args, env);=0A=
/* exece failed */=0A=
args[an] =3D asaved;=0A=
env[en] =3D esaved;=0A=
return result;=0A=
}=0A=
=0A=
int MLTON_execp(pointer f, pointer a) {=0A=
char *file, *saved, **args;=0A=
int n, result;=0A=
=0A=
file =3D (char*)f;=0A=
args =3D (char**)a;=0A=
n =3D GC_arrayNumElements(args) - 1;=0A=
saved =3D args[n];=0A=
args[n] =3D (char*)NULL;=0A=
result =3D execvp(file, args);=0A=
/* execp failed */=0A=
args[n] =3D saved;=0A=
return result;=0A=
}=0A=
#endif=0A=
------_=_NextPart_000_01BF27DC.5998CBDC
Content-Type: application/x-unknown-content-type-ProjectBuilder.h;
name="mlton-posix.h"
Content-Transfer-Encoding: quoted-printable
Content-Disposition: attachment;
filename="mlton-posix.h"
/* Copyright (C) 1997-1999 NEC Research Institute.=0A=
* Please see the file LICENSE for license information.=0A=
*/=0A=
#ifndef _MLTON_POSIX_H=0A=
#define _MLTON_POSIX_H=0A=
=0A=
#include "mlton-lib.h"=0A=
=0A=
#define MLTON_errno() errno=0A=
#define MLTON_clearErrno() errno =3D 0=0A=
=0A=
#if defined(_WIN32)=0A=
extern char **environ;=0A=
#else=0A=
extern char **environ;=0A=
#endif=0A=
=0A=
void MLTON_init_posix();=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Error */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_strerror(n) ((cpointer)(strerror(n)))=0A=
=0A=
#ifndef ECANCELED=0A=
#define ECANCELED 0=0A=
#endif=0A=
=0A=
#ifndef ENOTSUP=0A=
#define ENOTSUP 0=0A=
#endif=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* FileSys */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_opendir(p) ((cpointer)(opendir((char*)(p))))=0A=
#define MLTON_readdir(d) ((cpointer)(readdir((DIR*)(d))))=0A=
#define MLTON_rewinddir(p) ((void)(rewinddir((DIR*)(p))))=0A=
#define MLTON_closedir(p) ((int)(closedir((DIR*)(p))))=0A=
=0A=
#define MLTON_dirent_name(d) ((cpointer)(((struct =
dirent*)(d))->d_name))=0A=
=0A=
#define MLTON_fstat(f,s) ((int)(fstat((f), (struct stat*)(s))))=0A=
#define MLTON_lstat(f,s) ((int)(lstat((char*)(f), (struct =
stat*)(s))))=0A=
#define MLTON_stat(f,s) ((int)(stat((char*)(f), (struct stat*)(s))))=0A=
=0A=
extern struct stat MLTON_stat;=0A=
=0A=
#define MLTON_stat_dev(p) ((uint)(((struct stat*)(p))->st_dev))=0A=
#define MLTON_stat_ino(p) ((int)(((struct stat*)(p))->st_ino))=0A=
#define MLTON_stat_mode(p) ((uint)(((struct stat*)(p))->st_mode))=0A=
#define MLTON_stat_nlink(p) ((int)(((struct stat*)(p))->st_nlink))=0A=
#define MLTON_stat_uid(p) ((uint)(((struct stat*)(p))->st_uid))=0A=
#define MLTON_stat_gid(p) ((uint)(((struct stat*)(p))->st_gid))=0A=
#define MLTON_stat_rdev(p) ((uint)(((struct stat*)(p))->st_rdev))=0A=
#define MLTON_stat_size(p) ((int)(((struct stat*)(p))->st_size))=0A=
#define MLTON_stat_atime(p) ((int)(((struct stat*)(p))->st_atime))=0A=
#define MLTON_stat_mtime(p) ((int)(((struct stat*)(p))->st_mtime))=0A=
#define MLTON_stat_ctime(p) ((int)(((struct stat*)(p))->st_ctime))=0A=
=0A=
#define MLTON_utime(s,u) ((int)(utime((char*)(s), (struct =
utimbuf*)(u))))=0A=
=0A=
extern struct utimbuf MLTON_utimbuf;=0A=
=0A=
#define MLTON_set_utimbuf_actime(p,x) (((struct utimbuf*)(p))->actime) =
=3D (x)=0A=
#define MLTON_set_utimbuf_modtime(p,x) (((struct =
utimbuf*)(p))->modtime) =3D (x)=0A=
=0A=
#define MLTON_access(f,w) ((int)(access((char*)(f), (w))))=0A=
#define MLTON_chdir(p) ((int)(chdir((char*)(p))))=0A=
#define MLTON_chmod(p,m) ((int)(chmod((char*)(p), (m))))=0A=
#define MLTON_getcwd(buf,n) ((cpointer)(getcwd((buf),(n))))=0A=
#define MLTON_link(p1,p2) ((int)(link((char*)(p1), (char*)(p2))))=0A=
#define MLTON_mkdir(p,w) ((int)(mkdir((char*)(p), (w))))=0A=
#define MLTON_mkfifo(p,w) ((int)(mkfifo((char*)(p), (w))))=0A=
#define MLTON_open(p,w,m) ((int)(open((char*)(p), (w), (m))))=0A=
#define MLTON_pathconf(p,n) ((int)(pathconf((char*)(p), (n))))=0A=
#define MLTON_readlink(p,b,n) ((int)(readlink((char*)(p), (b), =
(n))))=0A=
#define MLTON_rename(p1,p2) ((int)(rename((char*)(p1), =
(char*)(p2))))=0A=
#define MLTON_rmdir(p) ((int)(rmdir((char*)(p))))=0A=
#define MLTON_symlink(p1,p2) ((int)(symlink((char*)(p1), =
(char*)(p2))))=0A=
#define MLTON_unlink(p) ((int)(unlink((char*)(p))))=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* IO */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_read(fd, b, i, s) ((int)(read((fd), (void*)((char*)(b) + =
(i)), (s))))=0A=
#define MLTON_write(fd, b, i, s) ((int)(write((fd), (void*)((char*)(b) =
+ (i)), (s))))=0A=
#define MLTON_pipe(p) ((int)(pipe((int*)(p))))=0A=
=0A=
#if defined(_WIN32)=0A=
#else=0A=
extern struct flock MLTON_flock;=0A=
=0A=
#define MLTON_flock_type(p) ((int)(((struct flock*)(p))->l_type))=0A=
#define MLTON_flock_whence(p) ((int)(((struct =
flock*)(p))->l_whence))=0A=
#define MLTON_flock_start(p) ((int)(((struct flock*)(p))->l_start))=0A=
#define MLTON_flock_len(p) ((int)(((struct flock*)(p))->l_len))=0A=
#define MLTON_flock_pid(p) ((int)(((struct flock*)(p))->l_pid))=0A=
=0A=
#define MLTON_set_flock_type(p,x) (((struct flock*)(p))->l_type) =3D =
(x)=0A=
#define MLTON_set_flock_whence(p,x) (((struct flock*)(p))->l_whence) =
=3D (x)=0A=
#define MLTON_set_flock_start(p,x) (((struct flock*)(p))->l_start) =3D =
(x)=0A=
#define MLTON_set_flock_len(p,x) (((struct flock*)(p))->l_len) =3D =
(x)=0A=
#define MLTON_set_flock_pid(p,x) (((struct flock*)(p))->l_pid) =3D =
(x)=0A=
#endif=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* ProcEnv */=0A=
/* ------------------------------------------------- */=0A=
=0A=
extern pointer MLTON_environ;=0A=
=0A=
#if defined(_WIN32)=0A=
#else=0A=
#define MLTON_times(t) ((int)(times((struct tms*)(t))))=0A=
=0A=
extern struct tms MLTON_tms;=0A=
=0A=
#define MLTON_tms_utime(p) ((int)(((struct tms*)(p))->tms_utime))=0A=
#define MLTON_tms_stime(p) ((int)(((struct tms*)(p))->tms_stime))=0A=
#define MLTON_tms_cutime(p) ((int)(((struct tms*)(p))->tms_cutime))=0A=
#define MLTON_tms_cstime(p) ((int)(((struct tms*)(p))->tms_cstime))=0A=
=0A=
extern struct utsname MLTON_utsname;=0A=
=0A=
#define MLTON_uname(u) uname((struct utsname*)(u))=0A=
=0A=
#define MLTON_uname_sysname(p) ((cpointer)(((struct =
utsname*)(p))->sysname))=0A=
#define MLTON_uname_nodename(p) ((cpointer)(((struct =
utsname*)(p))->nodename))=0A=
#define MLTON_uname_release(p) ((cpointer)(((struct =
utsname*)(p))->release))=0A=
#define MLTON_uname_version(p) ((cpointer)(((struct =
utsname*)(p))->version))=0A=
#define MLTON_uname_machine(p) ((cpointer)(((struct =
utsname*)(p))->machine))=0A=
#endif=0A=
=0A=
#define MLTON_numgroups 100=0A=
int MLTON_getgroups(pointer groups);=0A=
#define MLTON_getlogin() ((cpointer)(getlogin()))=0A=
=0A=
#define MLTON_ctermid() ((cpointer)ctermid((string)NULL))=0A=
#define MLTON_getenv(s) ((cpointer)getenv((string)(s)))=0A=
#define MLTON_ttyname(fd) ((cpointer)ttyname(fd))=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Process */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_waitpid(pid, status, options) ((int)(waitpid((pid), =
(int*)(status), (options))))=0A=
=0A=
int MLTON_exec(pointer path, pointer args);=0A=
int MLTON_exece(pointer path, pointer args, pointer env);=0A=
int MLTON_execp(pointer file, pointer args);=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* SysDB */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_getpwnam(p) ((cpointer)(getpwnam((char*)(p))))=0A=
#define MLTON_getpwuid(u) ((cpointer)(getpwuid((uid_t)(u))))=0A=
=0A=
#define MLTON_passwd_name(p) ((cpointer)(((struct =
passwd*)(p))->pw_name))=0A=
#define MLTON_passwd_uid(p) ((uint)(((struct passwd*)(p))->pw_uid))=0A=
#define MLTON_passwd_gid(p) ((uint)(((struct passwd*)(p))->pw_gid))=0A=
#define MLTON_passwd_dir(p) ((cpointer)(((struct =
passwd*)(p))->pw_dir))=0A=
#define MLTON_passwd_shell(p) ((cpointer)(((struct =
passwd*)(p))->pw_shell))=0A=
=0A=
#define MLTON_getgrgid(g) ((cpointer)(getgrgid((gid_t)(g))))=0A=
#define MLTON_getgrnam(s) ((cpointer)(getgrnam((char*)(s))))=0A=
=0A=
#define MLTON_group_name(p) ((cpointer)(((struct =
group*)(p))->gr_name))=0A=
#define MLTON_group_gid(p) ((uint)(((struct group*)(p))->gr_gid))=0A=
#define MLTON_group_mem(p) ((cpointer)(((struct =
group*)(p))->gr_mem))=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* TTY */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#if defined(_WIN32)=0A=
#else=0A=
extern struct termios MLTON_termios;=0A=
=0A=
#define MLTON_termios_iflag(t) ((uint)(((struct =
termios*)(t))->c_iflag))=0A=
#define MLTON_termios_oflag(t) ((uint)(((struct =
termios*)(t))->c_oflag))=0A=
#define MLTON_termios_cflag(t) ((uint)(((struct =
termios*)(t))->c_cflag))=0A=
#define MLTON_termios_lflag(t) ((uint)(((struct =
termios*)(t))->c_lflag))=0A=
#define MLTON_termios_cc(t) ((cpointer)(((struct =
termios*)(t))->c_cc))=0A=
=0A=
#define MLTON_set_termios_iflag(t,x) (((struct termios*)(t))->c_iflag) =
=3D (x)=0A=
#define MLTON_set_termios_oflag(t,x) (((struct termios*)(t))->c_oflag) =
=3D (x)=0A=
#define MLTON_set_termios_cflag(t,x) (((struct termios*)(t))->c_cflag) =
=3D (x)=0A=
#define MLTON_set_termios_lflag(t,x) (((struct termios*)(t))->c_lflag) =
=3D (x)=0A=
=0A=
#define MLTON_tcgetattr(f,t) ((int)(tcgetattr((f), (struct =
termios*)(t))))=0A=
#define MLTON_tcsetattr(f,a,t) ((int)(tcsetattr((f), (a), (struct =
termios*)(t))))=0A=
#define MLTON_cfgetospeed(t) ((int)(cfgetospeed((struct =
termios*)(t))))=0A=
#define MLTON_cfsetospeed(t,s) ((int)(cfsetospeed((struct termios*)(t), =
(s))))=0A=
#define MLTON_cfgetispeed(t) ((int)(cfgetispeed((struct =
termios*)(t))))=0A=
#define MLTON_cfsetispeed(t,s) ((int)(cfsetispeed((struct termios*)(t), =
(s))))=0A=
#endif=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Signals */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#define MLTON_sigemptyset(s) ((int)(sigemptyset((sigset_t*)(s))))=0A=
#define MLTON_sigfillset(s) ((int)(sigfillset((sigset_t*)(s))))=0A=
#define MLTON_sigaddset(a,b) ((int)(sigaddset((sigset_t*)(a),(b))))=0A=
#define MLTON_sigdelset(a,b) ((int)(sigdelset((sigset_t*)(a),(b))))=0A=
#define MLTON_sigismember(a,b) =
((int)(sigismember((sigset_t*)(a),(b))))=0A=
#define MLTON_sigpending(s) ((int)(sigpending((sigset_t*)(s))))=0A=
#define MLTON_sigprocmask(a,b) =
((int)(sigprocmask((a),(sigset_t*)(b),(sigset_t*)NULL)))=0A=
#define MLTON_sigsuspend(a) ((int)(sigsuspend((sigset_t*)(a))))=0A=
=0A=
#endif /* #ifndef _MLTON_POSIX_H */=0A=
=0A=
------_=_NextPart_000_01BF27DC.5998CBDC
Content-Type: application/x-unknown-content-type-ProjectBuilder.c;
name="my-lib.c"
Content-Transfer-Encoding: quoted-printable
Content-Disposition: attachment;
filename="my-lib.c"
#include "my-lib.h"=0A=
=0A=
#include <values.h>=0A=
=0A=
void=0A=
die(char *fmt, ...)=0A=
{=0A=
va_list args;=0A=
=0A=
fflush(stdout);=0A=
va_start(args, fmt);=0A=
vfprintf(stderr, fmt, args);=0A=
va_end(args);=0A=
fprintf(stderr, "\n");=0A=
exit(1);=0A=
}=0A=
=0A=
void asfail(char *file, int line, char *prop)=0A=
{=0A=
fflush(stdout);=0A=
fprintf(stderr, "%s %d: assert(%s) failed.\n", file, line, prop);=0A=
abort();=0A=
}=0A=
=0A=
=0A=
/* safe version of fopen */=0A=
#if defined(_WIN32)=0A=
FILE *safeopen(char *fileName, char *mode) {=0A=
#else=0A=
FILE *sopen(char *fileName, char *mode) {=0A=
#endif=0A=
FILE *file;=0A=
=0A=
if ((file =3D fopen((char*)fileName, mode)) =3D=3D NULL)=0A=
die("sopen unable to open file");=0A=
=0A=
return file;=0A=
}=0A=
=0A=
/* safe version of fwrite */=0A=
void swrite(void *ptr, size_t size, size_t nmemb, FILE *file) {=0A=
size_t bytes =3D size * nmemb;=0A=
=0A=
if (0 =3D=3D bytes) return;=0A=
=0A=
unless (1 =3D=3D fwrite(ptr, size * nmemb, 1, file))=0A=
die("swrite failed");=0A=
}=0A=
=0A=
void swriteUint(uint n, FILE *file) {=0A=
swrite(&n, sizeof(uint), 1, file);=0A=
}=0A=
=0A=
void sread(void *ptr, size_t size, size_t nmemb, FILE *file) {=0A=
unless (1 =3D=3D fread(ptr, size * nmemb, 1, file))=0A=
die("sread failed");=0A=
}=0A=
=0A=
uint sreadUint(FILE *file) {=0A=
uint n;=0A=
=0A=
sread(&n, sizeof(uint), 1, file);=0A=
=0A=
return n;=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* intToCommaString */=0A=
/* ------------------------------------------------- */=0A=
/* BUF_SIZE must be =3D=3D 1 mod 4 so that the ',' is inserted in the =
right place */=0A=
#define BUF_SIZE 81=0A=
=0A=
string intToCommaString(int n) {=0A=
static char buf[BUF_SIZE];=0A=
int i;=0A=
=0A=
i =3D BUF_SIZE - 1;=0A=
buf[i--] =3D '\000';=0A=
=0A=
if (0 =3D=3D n)=0A=
buf[i--] =3D '0';=0A=
#if defined(_WIN32)=0A=
// FIXME: ...=0A=
#define MININT (-2147483647 - 1)=0A=
#endif=0A=
else if (MININT =3D=3D n) {=0A=
/* must treat MININT specially, because I negate stuff later */=0A=
strcpy(buf + 1, "-2,147,483,648");=0A=
i =3D 0;=0A=
} else {=0A=
int m;=0A=
=0A=
if (n > 0) m =3D n; else m =3D -n;=0A=
=0A=
while (m > 0) {=0A=
buf[i--] =3D m % 10 + '0';=0A=
m =3D m / 10;=0A=
if (i % 4 =3D=3D 0 and m > 0) buf[i--] =3D ',';=0A=
}=0A=
if (n < 0) buf[i--] =3D '-';=0A=
}=0A=
return buf + i + 1;=0A=
}=0A=
=0A=
string uintToCommaString(uint n) {=0A=
static char buf[BUF_SIZE];=0A=
int i;=0A=
=0A=
i =3D BUF_SIZE - 1;=0A=
buf[i--] =3D '\000';=0A=
=0A=
if (0 =3D=3D n)=0A=
buf[i--] =3D '0';=0A=
else {=0A=
while (n > 0) {=0A=
buf[i--] =3D n % 10 + '0';=0A=
n =3D n / 10;=0A=
if (i % 4 =3D=3D 0 and n > 0) buf[i--] =3D ',';=0A=
}=0A=
}=0A=
return buf + i + 1;=0A=
}=0A=
=0A=
string ullongToCommaString(ullong n) {=0A=
static char buf[BUF_SIZE];=0A=
int i;=0A=
=0A=
i =3D BUF_SIZE - 1;=0A=
buf[i--] =3D '\000';=0A=
=0A=
if (0 =3D=3D n)=0A=
buf[i--] =3D '0';=0A=
else {=0A=
while (n > 0) {=0A=
buf[i--] =3D n % 10 + '0';=0A=
n =3D n / 10;=0A=
if (i % 4 =3D=3D 0 and n > 0) buf[i--] =3D ',';=0A=
}=0A=
}=0A=
return buf + i + 1;=0A=
}=0A=
------_=_NextPart_000_01BF27DC.5998CBDC
Content-Type: application/x-unknown-content-type-ProjectBuilder.c;
name="mlton-lib.c"
Content-Transfer-Encoding: quoted-printable
Content-Disposition: attachment;
filename="mlton-lib.c"
/* Copyright (C) 1997-1999 NEC Research Institute.=0A=
* Please see the file LICENSE for license information.=0A=
*/=0A=
#include "mlton-lib.h"=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* counters */=0A=
/* ------------------------------------------------- */=0A=
=0A=
ullong MLTON_numTrampolines;=0A=
ullong MLTON_numLimitChecks;=0A=
ullong MLTON_numInterReturns;=0A=
ullong MLTON_numReturns;=0A=
ullong MLTON_XmlKnown;=0A=
ullong MLTON_XmlUnknown;=0A=
ullong MLTON_SxmlKnown;=0A=
ullong MLTON_SxmlUnknown;=0A=
ullong MLTON_CpsKnown;=0A=
ullong MLTON_CpsUnknown;=0A=
ullong MLTON_CpsCall;=0A=
ullong MLTON_CpsLoop;=0A=
ullong MLTON_CpsDispatch;=0A=
ullong MLTON_CpsCoerce;=0A=
=0A=
#if defined(_WIN32)=0A=
int isWhiteSpace(char c)=0A=
{=0A=
return (c =3D=3D ' ' ||=0A=
c =3D=3D '\n' ||=0A=
c =3D=3D '\t');=0A=
}=0A=
=0A=
int WinCountArgs(LPSTR lpCmdLine)=0A=
{=0A=
int isWord =3D 0;=0A=
int cnt =3D 0;=0A=
=0A=
if(!lpCmdLine)=0A=
return 0;=0A=
=0A=
while(*lpCmdLine)=0A=
{=0A=
if(isWhiteSpace(*lpCmdLine))=0A=
{=0A=
if(isWord)=0A=
{=0A=
isWord =3D 0;=0A=
cnt++;=0A=
}=0A=
}=0A=
else=0A=
{=0A=
if(!isWord)=0A=
isWord =3D 1;=0A=
}=0A=
lpCmdLine++;=0A=
}=0A=
return cnt;=0A=
}=0A=
=0A=
char **WinArgv(LPSTR lpCmdLine)=0A=
{=0A=
char **result;=0A=
int isWord =3D 0;=0A=
int cnt, cnt2 =3D 0;=0A=
=0A=
cnt =3D WinCountArgs(lpCmdLine);=0A=
=0A=
result =3D malloc(sizeof(char *) * cnt);=0A=
//FIXME: Free this again and check for out of memory!!!=0A=
=0A=
if(!lpCmdLine)=0A=
return result;=0A=
=0A=
// Why don't we have higher order functions in C?=0A=
// Oh! That's the reason why we're writing ML compilers... :)=0A=
while(*lpCmdLine)=0A=
{=0A=
if(isWhiteSpace(*lpCmdLine))=0A=
{=0A=
if(isWord)=0A=
{=0A=
isWord =3D 0;=0A=
cnt2++;=0A=
}=0A=
}=0A=
else=0A=
{=0A=
if(!isWord)=0A=
{=0A=
isWord =3D 1;=0A=
result[cnt2] =3D lpCmdLine;=0A=
}=0A=
}=0A=
lpCmdLine++;=0A=
}=0A=
return result;=0A=
}=0A=
#endif=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* MLTON_bug */=0A=
/* ------------------------------------------------- */=0A=
=0A=
void MLTON_bug(string msg) {=0A=
fprintf(stderr, "MLton bug: %s.\n%s\n",=0A=
msg,=0A=
"Please send a bug report to MLton@research.nj.nec.com.");=0A=
exit(2);=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* MLTON_init */=0A=
/* ------------------------------------------------- */=0A=
=0A=
void MLTON_usage(string s) {=0A=
die("Usage: %s [@MLton [load-world file] [fixed-heap n[{k|m}]] =
[max-heap n[{k|m}]] [gc-messages] [gc-summary] --] args", =0A=
s);=0A=
}=0A=
=0A=
uint stringToBytes(string s) {=0A=
char c;=0A=
uint result;=0A=
int i, m;=0A=
=0A=
result =3D 0;=0A=
i =3D 0;=0A=
=0A=
while ((c =3D s[i++]) !=3D '\000') {=0A=
switch (c) {=0A=
case 'm':=0A=
if (s[i] =3D=3D '\000') =0A=
result =3D result * 1048576;=0A=
else return 0;=0A=
break;=0A=
case 'k':=0A=
if (s[i] =3D=3D '\000') =0A=
result =3D result * 1024;=0A=
else return 0;=0A=
break;=0A=
default:=0A=
m =3D (int)(c - '0');=0A=
if (0 <=3D m and m <=3D 9)=0A=
result =3D result * 10 + m;=0A=
else return 0;=0A=
}=0A=
}=0A=
=0A=
return result;=0A=
}=0A=
=0A=
void setupArgvArgc(int argc, char **argv, MLTON_state *state, int i)=0A=
{=0A=
/* Setup argv and argc that SML sees. */=0A=
/* i is now the index of the first real arg */=0A=
#if defined(_WIN32)=0A=
state->environment =3D (uint) environ;=0A=
#else=0A=
state->environ =3D (uint) environ;=0A=
#endif=0A=
=0A=
state->commandName =3D (uint)(argv[0]);=0A=
state->argc =3D argc - i;=0A=
state->argv =3D (uint)(argv + i);=0A=
}=0A=
=0A=
void MLTON_init(int argc, =0A=
char **argv,=0A=
MLTON_state *state,=0A=
uint magic,=0A=
void (*loadGlobals)(FILE *file)) {=0A=
GC_state *gcState;=0A=
char *worldFile;=0A=
int i;=0A=
bool done, heapSizeCommandLine;=0A=
=0A=
gcState =3D state->gcState;=0A=
=0A=
state->isOriginal =3D TRUE;=0A=
state->magic =3D magic;=0A=
=0A=
gcState->messages =3D FALSE;=0A=
gcState->summary =3D FALSE;=0A=
heapSizeCommandLine =3D FALSE;=0A=
gcState->maxHeapSize =3D 0;=0A=
=0A=
MLTON_numTrampolines =3D 0;=0A=
MLTON_numLimitChecks =3D 0;=0A=
MLTON_numInterReturns =3D 0;=0A=
MLTON_numReturns =3D 0;=0A=
MLTON_XmlKnown =3D 0;=0A=
MLTON_XmlUnknown =3D 0;=0A=
MLTON_SxmlKnown =3D 0;=0A=
MLTON_SxmlUnknown =3D 0;=0A=
MLTON_CpsKnown =3D 0;=0A=
MLTON_CpsUnknown =3D 0;=0A=
MLTON_CpsCall =3D 0;=0A=
MLTON_CpsLoop =3D 0;=0A=
MLTON_CpsDispatch =3D 0;=0A=
MLTON_CpsCoerce =3D 0;=0A=
=0A=
i =3D 1;=0A=
if (argc > 1 and (0 =3D=3D strcmp(argv[1], "@MLton"))) {=0A=
/* process @MLton args */=0A=
i =3D 2;=0A=
done =3D FALSE;=0A=
while (!done) {=0A=
if (i =3D=3D argc)=0A=
MLTON_usage(argv[0]);=0A=
else {=0A=
string arg;=0A=
=0A=
arg =3D argv[i];=0A=
if (0 =3D=3D strcmp(arg, "fixed-heap")) {=0A=
++i;=0A=
if (i =3D=3D argc)=0A=
MLTON_usage(argv[0]);=0A=
heapSizeCommandLine =3D TRUE;=0A=
gcState->useFixedHeap =3D TRUE;=0A=
gcState->fromSize =3D=0A=
stringToBytes(argv[i++]);=0A=
} else if (0 =3D=3D strcmp(arg, "max-heap")) {=0A=
++i;=0A=
if (i =3D=3D argc) =0A=
MLTON_usage(argv[0]);=0A=
heapSizeCommandLine =3D TRUE;=0A=
gcState->useFixedHeap =3D FALSE;=0A=
gcState->maxHeapSize =3D=0A=
stringToBytes(argv[i++]);=0A=
} else if (0 =3D=3D strcmp(arg, "gc-messages")) {=0A=
++i;=0A=
gcState->messages =3D TRUE;=0A=
} else if (0 =3D=3D strcmp(arg, "gc-summary")) {=0A=
++i;=0A=
gcState->summary =3D TRUE;=0A=
} else if (0 =3D=3D strcmp(arg, "load-world")) {=0A=
++i;=0A=
if (i =3D=3D argc) =0A=
MLTON_usage(argv[0]);=0A=
if (NULL =3D=3D loadGlobals) =0A=
die("%s cannot load a world file.", argv[0]);=0A=
state->isOriginal =3D FALSE;=0A=
worldFile =3D argv[i++];=0A=
} else if (0 =3D=3D strcmp(arg, "--")) {=0A=
++i;=0A=
done =3D TRUE;=0A=
} else if (i > 1)=0A=
MLTON_usage(argv[0]);=0A=
else done =3D TRUE;=0A=
}=0A=
}=0A=
}=0A=
=0A=
if (state->isOriginal) =0A=
GC_init(gcState);=0A=
else =0A=
GC_loadWorld(gcState, magic, worldFile, heapSizeCommandLine,=0A=
loadGlobals);=0A=
=0A=
/* Setup argv and argc that SML sees. */=0A=
/* i is now the index of the first real arg */=0A=
setupArgvArgc(argc, argv, state, i);=0A=
}=0A=
=0A=
void print(pointer s) {=0A=
fwrite(s, 1, GC_arrayNumElements(s), stderr);=0A=
}=0A=
=0A=
int stringEqual(pointer s1, pointer s2) {=0A=
if (s1 =3D=3D s2) return TRUE;=0A=
else {=0A=
int n1, n2;=0A=
=0A=
n1 =3D GC_arrayNumElements(s1);=0A=
n2 =3D GC_arrayNumElements(s2);=0A=
if (n1 !=3D n2) =0A=
return FALSE;=0A=
else {=0A=
int i; =0A=
for(i =3D 0; i < n1 ; ++i)=0A=
if (*(s1 + i) !=3D *(s2 + i)) =0A=
return FALSE;=0A=
}=0A=
}=0A=
=0A=
return TRUE;=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Int */=0A=
/* ------------------------------------------------- */=0A=
=0A=
void MLTON_overflow() {=0A=
die("MLton does not handle overflow.");=0A=
}=0A=
=0A=
#if defined(_WIN32)=0A=
#else=0A=
int MLTON_Int_addCheck(int n1, int n2) {=0A=
register int eax asm("ax");=0A=
=0A=
eax =3D n1;=0A=
=0A=
__asm__ __volatile__ ("addl %1, %0\n\tjo MLTON_overflow"=0A=
:=0A=
: "r" (eax), "m" (n2)=0A=
: "eax");=0A=
=0A=
return eax;=0A=
}=0A=
=0A=
int MLTON_Int_subCheck(int n1, int n2) {=0A=
register int eax asm("ax");=0A=
=0A=
eax =3D n1;=0A=
=0A=
__asm__ __volatile__ ("subl %1, %0\n\tjo MLTON_overflow"=0A=
:=0A=
: "r" (eax), "m" (n2)=0A=
: "eax");=0A=
=0A=
return eax;=0A=
}=0A=
=0A=
int MLTON_Int_mulCheck(int n1, int n2) {=0A=
register int eax asm("ax");=0A=
=0A=
eax =3D n1;=0A=
=0A=
__asm__ __volatile__ ("imull %1, %0\n\tjo MLTON_overflow"=0A=
:=0A=
: "r" (eax), "m" (n2)=0A=
: "eax");=0A=
=0A=
return eax;=0A=
}=0A=
#endif=0A=
=0A=
int intQuot(int numerator, int denominator) {=0A=
register int eax asm("ax");=0A=
=0A=
eax =3D numerator ;=0A=
=0A=
__asm__ __volatile__ ("cdq\n idivl %1"=0A=
: =0A=
: "r" (eax), "m" (denominator)=0A=
: "eax", "edx");=0A=
=0A=
return eax;=0A=
}=0A=
=0A=
int intRem(int numerator, int denominator) {=0A=
register int eax asm("ax"),=0A=
edx asm("dx");=0A=
=0A=
eax =3D numerator ;=0A=
=0A=
__asm__ __volatile__ ("cdq\n idivl %1"=0A=
: =0A=
: "r" (eax), "m" (denominator)=0A=
: "eax", "edx");=0A=
=0A=
return edx;=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Real */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* All this code assumes IEEE 754/854 and little endian.=0A=
*=0A=
* In memory, the 64 bits a double are layed out as follows.=0A=
*=0A=
* bits 7-0 of mantissa=0A=
* bits 15-8 of mantissa=0A=
* bits 23-16 of mantissa=0A=
* bits 31-24 of mantissa=0A=
* bits 39-32 of mantissa=0A=
* bits 47-40 of mantissa=0A=
* bits 3-0 of exponent=0A=
* bits 51-48 of mantissa=0A=
* sign bit=0A=
* bits 10-4 of exponent=0A=
*/=0A=
=0A=
int signBit(double d) {=0A=
return (((unsigned char *)&d)[7] & 0x80) >> 7;=0A=
}=0A=
=0A=
/* masks for word 1 */=0A=
#define EXPONENT_MASK 0x7FF00000=0A=
#define MANTISSA_MASK 0x000FFFFF=0A=
#define SIGNBIT_MASK 0x80000000=0A=
#define MANTISSA_HIGHBIT_MASK 0x00080000=0A=
=0A=
int class(double d) {=0A=
uint word0, word1;=0A=
=0A=
word0 =3D ((uint *)&d)[0];=0A=
word1 =3D ((uint *)&d)[1];=0A=
=0A=
if ((word1 & EXPONENT_MASK) =3D=3D EXPONENT_MASK) {=0A=
/* NAN_QUIET, NAN_SIGNALLING, or INF */=0A=
if (word0 or (word1 & MANTISSA_MASK)) {=0A=
/* NAN_QUIET or NAN_SIGNALLING -- look at the highest bit of =
mantissa */=0A=
if (word1 & MANTISSA_HIGHBIT_MASK)=0A=
return NAN_QUIET;=0A=
else=0A=
return NAN_SIGNALLING;=0A=
} else=0A=
return INF;=0A=
} else {=0A=
/* ZERO, NORMAL, or SUBNORMAL */=0A=
if (word1 & EXPONENT_MASK)=0A=
return NORMAL;=0A=
else if (word0 or (word1 & MANTISSA_MASK))=0A=
return SUBNORMAL;=0A=
else=0A=
return ZERO;=0A=
}=0A=
}=0A=
=0A=
int isFinite(double d) {=0A=
uint word1;=0A=
=0A=
word1 =3D ((uint *)&d)[1];=0A=
=0A=
return !((word1 & EXPONENT_MASK) =3D=3D EXPONENT_MASK);=0A=
}=0A=
=0A=
int isNan(double d) {=0A=
uint word0, word1;=0A=
=0A=
word0 =3D ((uint *)&d)[0];=0A=
word1 =3D ((uint *)&d)[1];=0A=
=0A=
return (((word1 & EXPONENT_MASK) =3D=3D EXPONENT_MASK)=0A=
and (word0 or (word1 & MANTISSA_MASK)));=0A=
}=0A=
=0A=
int isNormal(double d) {=0A=
uint word1, exponent;=0A=
=0A=
word1 =3D ((uint *)&d)[1];=0A=
=0A=
exponent =3D word1 & EXPONENT_MASK;=0A=
=0A=
return not(exponent =3D=3D 0 or exponent =3D=3D EXPONENT_MASK);=0A=
}=0A=
=0A=
#define ROUNDING_CONTROL_MASK 0x0C00=0A=
#define ROUNDING_CONTROL_SHIFT 10=0A=
=0A=
void setRoundingMode(int mode) {=0A=
unsigned short controlWord;=0A=
=0A=
__asm__ __volatile__ ("fstcw %0"=0A=
: "=3Dm" (controlWord)=0A=
: );=0A=
controlWord =3D =0A=
(mode << ROUNDING_CONTROL_SHIFT) =0A=
| (controlWord & ~ROUNDING_CONTROL_MASK);=0A=
=0A=
__asm__ __volatile__ ("fldcw %0"=0A=
:=0A=
: "m" (controlWord));=0A=
}=0A=
=0A=
int getRoundingMode() {=0A=
unsigned short controlWord;=0A=
=0A=
__asm__ __volatile__ ("fstcw %0"=0A=
: "=3Dm" (controlWord)=0A=
: );=0A=
=0A=
return (controlWord & ROUNDING_CONTROL_MASK) >> =
ROUNDING_CONTROL_SHIFT;=0A=
}=0A=
=0A=
double round(double d) {=0A=
register double f0;=0A=
=0A=
f0 =3D d;=0A=
=0A=
__asm__ __volatile__ ("frndint"=0A=
:=0A=
: "t" (f0));=0A=
=0A=
return f0;=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* MLton */=0A=
/* ------------------------------------------------- */=0A=
=0A=
/* Linux specific. Uses /dev/random to get a random word. */=0A=
uint MLTON_MLton_random() {=0A=
uint result;=0A=
#if defined(_WIN32)=0A=
result =3D rand();=0A=
#else=0A=
FILE *file;=0A=
=0A=
file =3D sopen("/dev/random", "r");=0A=
result =3D sreadUint(file);=0A=
fclose(file);=0A=
#endif=0A=
return result;=0A=
}=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Date */=0A=
/* ------------------------------------------------- */=0A=
=0A=
struct tm MLTON_tm;=0A=
=0A=
/* Begin modified from KitV3 src/Runtime/Time.c */=0A=
=0A=
/* SunOS 4 appears not to have mktime: */=0A=
#if defined(sun) && !defined(__svr4__)=0A=
#define tm2cal(tptr) timelocal(tptr)=0A=
#else=0A=
#define tm2cal(tptr) mktime(tptr)=0A=
#endif=0A=
=0A=
int MLTON_localoffset () {=0A=
struct tm *gmt;=0A=
time_t t1, t2, td;=0A=
=0A=
t1 =3D time((time_t*)0);=0A=
gmt =3D gmtime (&t1);=0A=
t2 =3D tm2cal(gmt);=0A=
=0A=
/* SunOs appears to lack difftime: */=0A=
#if defined(sun) && !defined(__svr4__)=0A=
td =3D (time_t)((long)t2 - (long)t1);=0A=
#else=0A=
td =3D difftime(t2, t1);=0A=
#endif=0A=
=0A=
return td;=0A=
}=0A=
=0A=
/* End modified from KitV3 src/Runtime/Time.c */=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Time */=0A=
/* ------------------------------------------------- */=0A=
=0A=
#if defined (_WIN32)=0A=
#else=0A=
struct timeval MLTON_timeval;=0A=
#endif=0A=
=0A=
/* ------------------------------------------------- */=0A=
/* Word */=0A=
/* ------------------------------------------------- */=0A=
=0A=
uint MLTON_Word32_arshiftAsm(uint w, uint s) {=0A=
register uchar cl asm("cl");=0A=
=0A=
if (s > 31) cl =3D 31;=0A=
else cl =3D s;=0A=
=0A=
__asm__ __volatile__ ("sarl %%cl, %0"=0A=
:=0A=
: "m" (w), "r" (cl));=0A=
return w;=0A=
}=0A=
=0A=
uchar MLTON_Word8_arshift(uchar w, uint s) {=0A=
register uchar cl asm("cl");=0A=
=0A=
if (s > 7) cl =3D 7;=0A=
else cl =3D s;=0A=
=0A=
__asm__ __volatile__ ("sarb %%cl, %0"=0A=
:=0A=
: "m" (w), "r" (cl));=0A=
return w;=0A=
}=0A=
------_=_NextPart_000_01BF27DC.5998CBDC
Content-Type: application/x-unknown-content-type-ProjectBuilder.h;
name="SDL_mangle.h"
Content-Transfer-Encoding: quoted-printable
Content-Disposition: attachment;
filename="SDL_mangle.h"
/*=0A=
SDL - Simple DirectMedia Layer=0A=
Copyright (C) 1997, 1998 Sam Lantinga=0A=
=0A=
This library is free software; you can redistribute it and/or=0A=
modify it under the terms of the GNU Library General Public=0A=
License as published by the Free Software Foundation; either=0A=
version 2 of the License, or (at your option) any later version.=0A=
=0A=
This library is distributed in the hope that it will be useful,=0A=
but WITHOUT ANY WARRANTY; without even the implied warranty of=0A=
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the =
GNU=0A=
Library General Public License for more details.=0A=
=0A=
You should have received a copy of the GNU Library General =
Public=0A=
License along with this library; if not, write to the Free=0A=
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA =
02111-1307 USA=0A=
=0A=
Sam Lantinga=0A=
5635-34 Springhouse Dr.=0A=
Pleasanton, CA 94588 (USA)=0A=
slouken@devolution.com=0A=
*/=0A=
=0A=
#ifdef SAVE_RCSID=0A=
static char rcsid =3D=0A=
"@(#) $Id: SDL_mangle.h,v 1.6 1998/10/07 16:56:37 slouken Exp $";=0A=
#endif=0A=
=0A=
#ifndef _SDL_mangle_h=0A=
#define _SDL_mangle_h=0A=
=0A=
/* Redefine main() on Win32 so that it is called by winmain.c */=0A=
=0A=
#if defined(WIN32) || (defined(__MWERKS__) && !defined(__BEOS__))=0A=
=0A=
#ifdef __cplusplus=0A=
#define main RunMain=0A=
#else=0A=
#if defined(__GNUC__)=0A=
#define main RunMain__FiPPc /* Name mangled for G++ */=0A=
#define RunMain RunMain__FiPPc=0A=
#else=0A=
#define main RunMain=0A=
#endif /* __GNUC__ */=0A=
#endif /* __cplusplus */=0A=
=0A=
extern int RunMain(int argc, char *argv[]);=0A=
=0A=
#endif /* MANGLE_MAIN */=0A=
=0A=
#endif /* _SDL_mangle_h */=0A=
------_=_NextPart_000_01BF27DC.5998CBDC
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////////////////////////////////////////////////////////////////////////////
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