module gc.gc;
-private import core.stdc.stdlib;
-
private
{
+ import core.stdc.stdlib;
+
enum BlkAttr : uint
{
FINALIZE = 0b0000_0001,
extern (C) void thread_init();
extern (C) void onOutOfMemoryError();
+
+ struct Proxy
+ {
+ extern (C) void function() gc_enable;
+ extern (C) void function() gc_disable;
+ extern (C) void function() gc_collect;
+ extern (C) void function() gc_minimize;
+
+ extern (C) uint function(void*) gc_getAttr;
+ extern (C) uint function(void*, uint) gc_setAttr;
+ extern (C) uint function(void*, uint) gc_clrAttr;
+
+ extern (C) void* function(size_t, uint) gc_malloc;
+ extern (C) void* function(size_t, uint) gc_calloc;
+ extern (C) void* function(void*, size_t, uint ba) gc_realloc;
+ extern (C) size_t function(void*, size_t, size_t) gc_extend;
+ extern (C) size_t function(size_t) gc_reserve;
+ extern (C) void function(void*) gc_free;
+
+ extern (C) void* function(void*) gc_addrOf;
+ extern (C) size_t function(void*) gc_sizeOf;
+
+ extern (C) BlkInfo function(void*) gc_query;
+
+ extern (C) void function(void*) gc_addRoot;
+ extern (C) void function(void*, size_t) gc_addRange;
+
+ extern (C) void function(void*) gc_removeRoot;
+ extern (C) void function(void*) gc_removeRange;
+ }
+
+ Proxy pthis;
+ Proxy* proxy;
+
+ void initProxy()
+ {
+ pthis.gc_enable = &gc_enable;
+ pthis.gc_disable = &gc_disable;
+ pthis.gc_collect = &gc_collect;
+ pthis.gc_minimize = &gc_minimize;
+
+ pthis.gc_getAttr = &gc_getAttr;
+ pthis.gc_setAttr = &gc_setAttr;
+ pthis.gc_clrAttr = &gc_clrAttr;
+
+ pthis.gc_malloc = &gc_malloc;
+ pthis.gc_calloc = &gc_calloc;
+ pthis.gc_realloc = &gc_realloc;
+ pthis.gc_extend = &gc_extend;
+ pthis.gc_reserve = &gc_reserve;
+ pthis.gc_free = &gc_free;
+
+ pthis.gc_addrOf = &gc_addrOf;
+ pthis.gc_sizeOf = &gc_sizeOf;
+
+ pthis.gc_query = &gc_query;
+
+ pthis.gc_addRoot = &gc_addRoot;
+ pthis.gc_addRange = &gc_addRange;
+
+ pthis.gc_removeRoot = &gc_removeRoot;
+ pthis.gc_removeRange = &gc_removeRange;
+ }
+
+ void** roots = null;
+ size_t nroots = 0;
+
+ struct Range
+ {
+ void* pos;
+ size_t len;
+ }
+
+ Range* ranges = null;
+ size_t nranges = 0;
}
extern (C) void gc_init()
// NOTE: The GC must initialize the thread library before its first
// collection, and always before returning from gc_init().
thread_init();
+ initProxy();
}
extern (C) void gc_term()
{
-
+ free( roots );
+ free( ranges );
}
extern (C) void gc_enable()
{
-
+ if( proxy is null )
+ return;
+ return proxy.gc_enable();
}
extern (C) void gc_disable()
{
-
+ if( proxy is null )
+ return;
+ return proxy.gc_disable();
}
extern (C) void gc_collect()
{
-
+ if( proxy is null )
+ return;
+ return proxy.gc_collect();
}
extern (C) void gc_minimize()
{
-
+ if( proxy is null )
+ return;
+ return proxy.gc_minimize();
}
extern (C) uint gc_getAttr( void* p )
{
- return 0;
+ if( proxy is null )
+ return 0;
+ return proxy.gc_getAttr( p );
}
extern (C) uint gc_setAttr( void* p, uint a )
{
- return 0;
+ if( proxy is null )
+ return 0;
+ return proxy.gc_setAttr( p, a );
}
extern (C) uint gc_clrAttr( void* p, uint a )
{
- return 0;
+ if( proxy is null )
+ return 0;
+ return proxy.gc_clrAttr( p, a );
}
extern (C) void* gc_malloc( size_t sz, uint ba = 0 )
{
- void* p = malloc( sz );
+ if( proxy is null )
+ {
+ void* p = malloc( sz );
- if( sz && p is null )
- onOutOfMemoryError();
- return p;
+ if( sz && p is null )
+ onOutOfMemoryError();
+ return p;
+ }
+ return proxy.gc_malloc( sz, ba );
}
extern (C) void* gc_calloc( size_t sz, uint ba = 0 )
{
- void* p = calloc( 1, sz );
+ if( proxy is null )
+ {
+ void* p = calloc( 1, sz );
- if( sz && p is null )
- onOutOfMemoryError();
- return p;
+ if( sz && p is null )
+ onOutOfMemoryError();
+ return p;
+ }
+ return proxy.gc_calloc( sz, ba );
}
extern (C) void* gc_realloc( void* p, size_t sz, uint ba = 0 )
{
- p = realloc( p, sz );
+ if( proxy is null )
+ {
+ p = realloc( p, sz );
- if( sz && p is null )
- onOutOfMemoryError();
- return p;
+ if( sz && p is null )
+ onOutOfMemoryError();
+ return p;
+ }
+ return proxy.gc_realloc( p, sz, ba );
}
extern (C) size_t gc_extend( void* p, size_t mx, size_t sz )
{
- return 0;
+ if( proxy is null )
+ return 0;
+ return proxy.gc_extend( p, mx, sz );
}
extern (C) size_t gc_reserve( size_t sz )
{
- return 0;
+ if( proxy is null )
+ return 0;
+ return proxy.gc_reserve( sz );
}
extern (C) void gc_free( void* p )
{
- free( p );
+ if( proxy is null )
+ return free( p );
+ return proxy.gc_free( p );
}
extern (C) void* gc_addrOf( void* p )
{
- return null;
+ if( proxy is null )
+ return null;
+ return proxy.gc_addrOf( p );
}
extern (C) size_t gc_sizeOf( void* p )
{
- return 0;
+ if( proxy is null )
+ return 0;
+ return proxy.gc_sizeOf( p );
}
extern (C) BlkInfo gc_query( void* p )
{
- return BlkInfo.init;
+ if( proxy is null )
+ return BlkInfo.init;
+ return proxy.gc_query( p );
}
extern (C) void gc_addRoot( void* p )
{
+ if( proxy is null )
+ {
+ void** r = cast(void**) realloc( roots,
+ (nroots+1) * roots[0].sizeof );
+ if( r is null )
+ onOutOfMemoryError();
+ r[nroots++] = p;
+ roots = r;
+ }
+ return proxy.gc_addRoot( p );
}
extern (C) void gc_addRange( void* p, size_t sz )
{
-
+ if( proxy is null )
+ {
+ Range* r = cast(Range*) realloc( ranges,
+ (nranges+1) * ranges[0].sizeof );
+ if( r is null )
+ onOutOfMemoryError();
+ r[nranges].pos = p;
+ r[nranges].len = sz;
+ ranges = r;
+ ++nranges;
+ }
+ return proxy.gc_addRange( p, sz );
}
extern (C) void gc_removeRoot( void *p )
{
-
+ if( proxy is null )
+ {
+ for( size_t i = 0; i < nroots; ++i )
+ {
+ if( roots[i] is p )
+ {
+ roots[i] = roots[--nroots];
+ return;
+ }
+ }
+ assert( false );
+ }
+ return proxy.gc_removeRoot( p );
}
extern (C) void gc_removeRange( void *p )
{
-
+ if( proxy is null )
+ {
+ for( size_t i = 0; i < nranges; ++i )
+ {
+ if( ranges[i].pos is p )
+ {
+ ranges[i] = ranges[--nranges];
+ return;
+ }
+ }
+ assert( false );
+ }
+ return proxy.gc_removeRange( p );
}
-extern (C) void* gc_getHandle()
+extern (C) Proxy* gc_getProxy()
{
- return null;
+ return &pthis;
}
-extern (C) void gc_setHandle(void* p)
+export extern (C) void gc_setProxy( Proxy* p )
{
+ if( proxy !is null )
+ {
+ // TODO: Decide if this is an error condition.
+ }
+ proxy = p;
+ foreach( r; roots[0 .. nroots] )
+ proxy.gc_addRoot( r );
+ foreach( r; ranges[0 .. nranges] )
+ proxy.gc_addRange( r.pos, r.len );
}
-extern (C) void gc_endHandle()
+export extern (C) void gc_clrProxy()
{
+ foreach( r; ranges[0 .. nranges] )
+ proxy.gc_removeRange( r.pos );
+ foreach( r; roots[0 .. nroots] )
+ proxy.gc_removeRoot( r );
+ proxy = null;
}
-