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view dmd/mem.c @ 948:780530d1cad3
Revert templates to old behavior.
While emitting a template instantiation only once is good for compile times
and binary sizes, it doesn't work with linkonce linkage as inlined function
bodies could be discarded. Since we don't want to inhibit inlining, templates
are reverted to the previous behavior, where an instantiation is emitted for
each module using it.
In the future, a custom inlining pass may allow us to switch back to
common/weak linkage and reenable smart template instance emission.
author | Christian Kamm <kamm incasoftware de> |
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date | Sun, 08 Feb 2009 21:44:46 +0100 |
parents | 967178e31a13 |
children | b30fe7e1dbb9 |
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/* Copyright (c) 2000 Digital Mars */ /* All Rights Reserved */ #include <cstdio> #include <cstdlib> #include <cstring> #include <cassert> #include "mem.h" #if USE_BOEHM_GC // I needed to perfix the dir after upgrading to gc 7.0 #include "gc/gc.h" #endif /* This implementation of the storage allocator uses the standard C allocation package. */ Mem mem; #if USE_BOEHM_GC static bool gc_was_init = false; void Mem::init() { GC_init(); gc_was_init = true; } char *Mem::strdup(const char *s) { char *p; if (s) { p = GC_strdup(s); if (p) return p; error(); } return NULL; } void *Mem::malloc(size_t size) { void *p; if (!size) p = NULL; else { p = GC_malloc(size); if (!p) error(); } return p; } void *Mem::calloc(size_t size, size_t n) { void *p; if (!size || !n) p = NULL; else { p = GC_malloc(size * n); if (!p) error(); memset(p, 0, size * n); } return p; } void *Mem::realloc(void *p, size_t size) { if (!size) { if (p) { GC_free(p); p = NULL; } } else if (!p) { p = GC_malloc(size); if (!p) error(); } else { p = GC_realloc(p, size); if (!p) error(); } return p; } void Mem::free(void *p) { if (p) GC_free(p); } void *Mem::mallocdup(void *o, size_t size) { void *p; if (!size) p = NULL; else { p = GC_malloc(size); if (!p) error(); else memcpy(p,o,size); } return p; } void Mem::error() { printf("Error: out of memory\n"); exit(EXIT_FAILURE); } void Mem::fullcollect() { GC_gcollect(); } void Mem::mark(void *pointer) { (void) pointer; // necessary for VC /W4 } /* =================================================== */ void * operator new(size_t m_size) { // without this we segfault with gc 7.0 if (!gc_was_init) { mem.init(); } void *p = GC_malloc(m_size); if (p) return p; printf("Error: out of memory\n"); exit(EXIT_FAILURE); return p; } void operator delete(void *p) { GC_free(p); } #elif !USE_BOEHM_GC void Mem::init() { } char *Mem::strdup(const char *s) { char *p; if (s) { p = ::strdup(s); if (p) return p; error(); } return NULL; } void *Mem::malloc(size_t size) { void *p; if (!size) p = NULL; else { p = ::malloc(size); if (!p) error(); } return p; } void *Mem::calloc(size_t size, size_t n) { void *p; if (!size || !n) p = NULL; else { p = ::malloc(size * n); if (!p) error(); memset(p, 0, size * n); } return p; } void *Mem::realloc(void *p, size_t size) { if (!size) { if (p) { ::free(p); p = NULL; } } else if (!p) { p = ::malloc(size); if (!p) error(); } else { p = ::realloc(p, size); if (!p) error(); } return p; } void Mem::free(void *p) { if (p) ::free(p); } void *Mem::mallocdup(void *o, size_t size) { void *p; if (!size) p = NULL; else { p = ::malloc(size); if (!p) error(); else memcpy(p,o,size); } return p; } void Mem::error() { printf("Error: out of memory\n"); exit(EXIT_FAILURE); } void Mem::fullcollect() { } void Mem::mark(void *pointer) { } #endif // USE_BOEHM_GC