/**************************************************************************/ /* */ /* OCaml */ /* */ /* Xavier Leroy and Damien Doligez, INRIA Rocquencourt */ /* */ /* Copyright 1996 Institut National de Recherche en Informatique et */ /* en Automatique. */ /* */ /* All rights reserved. This file is distributed under the terms of */ /* the GNU Lesser General Public License version 2.1, with the */ /* special exception on linking described in the file LICENSE. */ /* */ /**************************************************************************/ #ifndef CAML_CONFIG_H #define CAML_CONFIG_H /* */ /* */ /* */ #include "m.h" #include "s.h" #ifdef BOOTSTRAPPING_FLEXLINK #undef SUPPORT_DYNAMIC_LINKING #endif #ifndef CAML_NAME_SPACE #include "compatibility.h" #endif #include #ifdef HAS_STDINT_H #include #endif #ifndef ARCH_SIZET_PRINTF_FORMAT #define ARCH_SIZET_PRINTF_FORMAT "z" #endif /* Types for 32-bit integers, 64-bit integers, and native integers (as wide as a pointer type) */ #ifndef ARCH_INT32_TYPE #if SIZEOF_INT == 4 #define ARCH_INT32_TYPE int #define ARCH_UINT32_TYPE unsigned int #define ARCH_INT32_PRINTF_FORMAT "" #elif SIZEOF_LONG == 4 #define ARCH_INT32_TYPE long #define ARCH_UINT32_TYPE unsigned long #define ARCH_INT32_PRINTF_FORMAT "l" #elif SIZEOF_SHORT == 4 #define ARCH_INT32_TYPE short #define ARCH_UINT32_TYPE unsigned short #define ARCH_INT32_PRINTF_FORMAT "" #else #error "No 32-bit integer type available" #endif #endif #ifndef ARCH_INT64_TYPE #if SIZEOF_LONG == 8 #define ARCH_INT64_TYPE long #define ARCH_UINT64_TYPE unsigned long #define ARCH_INT64_PRINTF_FORMAT "l" #elif SIZEOF_LONGLONG == 8 #define ARCH_INT64_TYPE long long #define ARCH_UINT64_TYPE unsigned long long #define ARCH_INT64_PRINTF_FORMAT "ll" #else #error "No 64-bit integer type available" #endif #endif #ifndef HAS_STDINT_H /* Not a C99 compiler, typically MSVC. Define the C99 types we use. */ typedef ARCH_INT32_TYPE int32_t; typedef ARCH_UINT32_TYPE uint32_t; typedef ARCH_INT64_TYPE int64_t; typedef ARCH_UINT64_TYPE uint64_t; #if SIZEOF_SHORT == 2 typedef short int16_t; typedef unsigned short uint16_t; #else #error "No 16-bit integer type available" #endif #endif #if SIZEOF_PTR == SIZEOF_LONG /* Standard models: ILP32 or I32LP64 */ typedef long intnat; typedef unsigned long uintnat; #define ARCH_INTNAT_PRINTF_FORMAT "l" #elif SIZEOF_PTR == SIZEOF_INT /* Hypothetical IP32L64 model */ typedef int intnat; typedef unsigned int uintnat; #define ARCH_INTNAT_PRINTF_FORMAT "" #elif SIZEOF_PTR == 8 /* Win64 model: IL32P64 */ typedef int64_t intnat; typedef uint64_t uintnat; #define ARCH_INTNAT_PRINTF_FORMAT ARCH_INT64_PRINTF_FORMAT #else #error "No integer type available to represent pointers" #endif /* Endianness of floats */ /* ARCH_FLOAT_ENDIANNESS encodes the byte order of doubles as follows: the value [0xabcdefgh] means that the least significant byte of the float is at byte offset [a], the next lsb at [b], ..., and the most significant byte at [h]. */ #if defined(__arm__) && !defined(__ARM_EABI__) #define ARCH_FLOAT_ENDIANNESS 0x45670123 #elif defined(ARCH_BIG_ENDIAN) #define ARCH_FLOAT_ENDIANNESS 0x76543210 #else #define ARCH_FLOAT_ENDIANNESS 0x01234567 #endif /* We use threaded code interpretation if the compiler provides labels as first-class values (GCC 2.x). */ #if defined(__GNUC__) && __GNUC__ >= 2 && !defined(DEBUG) \ && !defined (SHRINKED_GNUC) && !defined(CAML_JIT) #define THREADED_CODE #endif /* Memory model parameters */ /* The size of a page for memory management (in bytes) is [1 << Page_log]. [Page_size] must be a multiple of [sizeof (value)]. [Page_log] must be be >= 8 and <= 20. Do not change the definition of [Page_size]. */ #define Page_log 12 /* A page is 4 kilobytes. */ #define Page_size (1 << Page_log) /* Initial size of stack (bytes). */ #define Stack_size (4096 * sizeof(value)) /* Minimum free size of stack (bytes); below that, it is reallocated. */ #define Stack_threshold (256 * sizeof(value)) /* Default maximum size of the stack (words). */ #define Max_stack_def (1024 * 1024) /* Maximum size of a block allocated in the young generation (words). */ /* Must be > 4 */ #define Max_young_wosize 256 #define Max_young_whsize (Whsize_wosize (Max_young_wosize)) /* Minimum size of the minor zone (words). This must be at least [2 * Max_young_whsize]. */ #define Minor_heap_min 4096 /* Maximum size of the minor zone (words). Must be greater than or equal to [Minor_heap_min]. */ #define Minor_heap_max (1 << 28) /* Default size of the minor zone. (words) */ #define Minor_heap_def 16384 /* Minimum size increment when growing the heap (words). Must be a multiple of [Page_size / sizeof (value)]. */ #define Heap_chunk_min (15 * Page_size) /* Default size increment when growing the heap. If this is <= 1000, it's a percentage of the current heap size. If it is > 1000, it's a number of words. */ #define Heap_chunk_def 15 /* Default initial size of the major heap (words); Must be a multiple of [Page_size / sizeof (value)]. */ #define Init_heap_def (4 * Page_size) /* (about 512 kB for a 32-bit platform, 1 MB for a 64-bit platform.) */ /* Default speed setting for the major GC. The heap will grow until the dead objects and the free list represent this percentage of the total size of live objects. */ #define Percent_free_def 80 /* Default setting for the compacter: 500% (i.e. trigger the compacter when 5/6 of the heap is free or garbage) This can be set quite high because the overhead is over-estimated when fragmentation occurs. */ #define Max_percent_free_def 500 /* Default setting for the major GC slice smoothing window: 1 (i.e. no smoothing) */ #define Major_window_def 1 /* Maximum size of the major GC slice smoothing window. */ #define Max_major_window 50 #endif /* CAML_CONFIG_H */