/***********************************************************************/ /* */ /* Objective Caml */ /* */ /* Xavier Leroy and Damien Doligez, INRIA Rocquencourt */ /* */ /* Copyright 1996 Institut National de Recherche en Informatique et */ /* Automatique. Distributed only by permission. */ /* */ /***********************************************************************/ /* $Id$ */ #ifndef _mlvalues_ #define _mlvalues_ #include "config.h" #include "misc.h" /* Definitions word: Four bytes on 32 and 16 bit architectures, eight bytes on 64 bit architectures. long: A C long integer. val: The ML representation of something. A long or a block or a pointer outside the heap. If it is a block, it is the (encoded) address of an object. If it is a long, it is encoded as well. object: Something allocated. It always has a header and some fields or some number of bytes (a multiple of the word size). field: A word-sized val which is part of an object. bp: Pointer to the first byte of an object. (a char *) op: Pointer to the first field of an object. (a value *) hp: Pointer to the header of an object. (a char *) int32: Four bytes on all architectures. Remark: An object size is always a multiple of the word size, and at least one word plus the header. bosize: Size (in bytes) of the "bytes" part. wosize: Size (in words) of the "fields" part. bhsize: Size (in bytes) of the object with its header. whsize: Size (in words) of the object with its header. hd: A header. tag: The value of the tag field of the header. color: The value of the color field of the header. This is for use only by the GC. */ typedef long value; typedef unsigned long header_t; typedef unsigned long mlsize_t; typedef unsigned int tag_t; /* Actually, an unsigned char */ typedef unsigned long color_t; typedef unsigned long mark_t; typedef int int32; /* Not portable, but checked by autoconf. */ typedef unsigned int uint32; /* Seems like a reasonable assumption anyway. */ /* Longs vs blocks. */ #define Is_long(x) (((x) & 1) != 0) #define Is_block(x) (((x) & 1) == 0) /* Conversion macro names are always of the form "to_from". */ /* Example: Val_long as in "Val from long" or "Val of long". */ #define Val_long(x) (((long)(x) << 1) + 1) #define Long_val(x) ((x) >> 1) #define Max_long ((1L << (8 * sizeof(value) - 2)) - 1) #define Min_long (-(1L << (8 * sizeof(value) - 2))) #define Val_int Val_long #define Int_val(x) ((int) Long_val(x)) /* Structure of the header: For 16-bit and 32-bit architectures: +--------+-------+-----+ | wosize | color | tag | +--------+-------+-----+ bits 31 10 9 8 7 0 For 64-bit architectures: +--------+-------+-----+ | wosize | color | tag | +--------+-------+-----+ bits 63 10 9 8 7 0 */ #define Tag_hd(hd) ((tag_t) ((hd) & 0xFF)) #define Wosize_hd(hd) ((mlsize_t) ((hd) >> 10)) #define Hd_val(val) (((header_t *) (val)) [-1]) /* Also an l-value. */ #define Hd_op(op) (Hd_val (op)) /* Also an l-value. */ #define Hd_bp(bp) (Hd_val (bp)) /* Also an l-value. */ #define Hd_hp(hp) (* ((header_t *) (hp))) /* Also an l-value. */ #define Hp_val(val) ((char *) (((header_t *) (val)) - 1)) #define Hp_op(op) (Hp_val (op)) #define Hp_bp(bp) (Hp_val (bp)) #define Val_op(op) ((value) (op)) #define Val_hp(hp) ((value) (((header_t *) (hp)) + 1)) #define Op_hp(hp) ((value *) Val_hp (hp)) #define Bp_hp(hp) ((char *) Val_hp (hp)) #define Num_tags (1 << 8) #ifdef ARCH_SIXTYFOUR #define Max_wosize ((1L << 54) - 1) #else #define Max_wosize ((1 << 22) - 1) #endif #define Wosize_val(val) (Wosize_hd (Hd_val (val))) #define Wosize_op(op) (Wosize_val (op)) #define Wosize_bp(bp) (Wosize_val (bp)) #define Wosize_hp(hp) (Wosize_hd (Hd_hp (hp))) #define Whsize_wosize(sz) ((sz) + 1) #define Wosize_whsize(sz) ((sz) - 1) #define Wosize_bhsize(sz) ((sz) / sizeof (value) - 1) #define Bsize_wsize(sz) ((sz) * sizeof (value)) #define Wsize_bsize(sz) ((sz) / sizeof (value)) #define Bhsize_wosize(sz) (Bsize_wsize (Whsize_wosize (sz))) #define Bhsize_bosize(sz) ((sz) + sizeof (header_t)) #define Bosize_val(val) (Bsize_wsize (Wosize_val (val))) #define Bosize_op(op) (Bosize_val (Val_op (op))) #define Bosize_bp(bp) (Bosize_val (Val_bp (bp))) #define Bosize_hd(hd) (Bsize_wsize (Wosize_hd (hd))) #define Whsize_hp(hp) (Whsize_wosize (Wosize_hp (hp))) #define Whsize_val(val) (Whsize_hp (Hp_val (val))) #define Whsize_bp(bp) (Whsize_val (Val_bp (bp))) #define Whsize_hd(hd) (Whsize_wosize (Wosize_hd (hd))) #define Bhsize_hp(hp) (Bsize_wsize (Whsize_hp (hp))) #define Bhsize_hd(hd) (Bsize_wsize (Whsize_hd (hd))) #ifdef ARCH_BIG_ENDIAN #define Tag_val(val) (((unsigned char *) (val)) [-1]) /* Also an l-value. */ #define Tag_hp(hp) (((unsigned char *) (hp)) [sizeof(value)-1]) /* Also an l-value. */ #else #define Tag_val(val) (((unsigned char *) (val)) [-sizeof(value)]) /* Also an l-value. */ #define Tag_hp(hp) (((unsigned char *) (hp)) [0]) /* Also an l-value. */ #endif /* The lowest tag for blocks containing no value. */ #define No_scan_tag 251 /* 1- If tag < No_scan_tag : a tuple of fields. */ /* Pointer to the first field. */ #define Op_val(x) ((value *) (x)) /* Fields are numbered from 0. */ #define Field(x, i) (((value *)(x)) [i]) /* Also an l-value. */ typedef int32 opcode_t; typedef opcode_t * code_t; /* Special case of tuples of fields: closures */ #define Closure_tag 250 #define Code_val(val) (((code_t *) (val)) [0]) /* Also an l-value. */ /* If tag == Infix_tag : an infix header inside a closure */ /* Infix_tag must be odd so that the infix header is scanned as an integer */ #define Infix_tag 249 #define Infix_offset_hd(hd) (Bosize_hd(hd)) #define Infix_offset_val(v) Infix_offset_hd(Hd_val(v)) /* 2- If tag > No_scan_tag : a sequence of bytes. */ /* Pointer to the first byte */ #define Bp_val(v) ((char *) (v)) #define Val_bp(p) ((value) (p)) /* Bytes are numbered from 0. */ #define Byte(x, i) (((char *) (x)) [i]) /* Also an l-value. */ #define Byte_u(x, i) (((unsigned char *) (x)) [i]) /* Also an l-value. */ /* Abstract things. Their contents is not traced by the GC; therefore they must not contain any [value]. */ #define Abstract_tag 251 /* Strings. */ #define String_tag 252 #define String_val(x) ((char *) Bp_val(x)) /* Floating-point numbers. */ #define Double_tag 253 #define Double_wosize ((sizeof(double) / sizeof(value))) #ifndef ARCH_ALIGN_DOUBLE #define Double_val(v) (* (double *)(v)) #define Store_double_val(v,d) (* (double *)(v) = (d)) #else double Double_val P((value)); void Store_double_val P((value,double)); #endif /* Arrays of floating-point numbers. */ #define Double_array_tag 254 #define Double_field(v,i) Double_val((value)((double *)(v) + (i))) #define Store_double_field(v,i,d) \ Store_double_val((value)((double *)(v) + (i)),d) /* Finalized things. Just like abstract things, but the GC will call the [Final_fun] before deallocation. */ #define Final_tag 255 typedef void (*final_fun) P((value)); #define Final_fun(val) (((final_fun *) (val)) [0]) /* Also an l-value. */ /* 3- Atoms are 0-tuples. They are statically allocated once and for all. */ extern header_t atom_table[]; #define Atom(tag) (Val_hp (&(atom_table [tag]))) /* Is_atom tests whether a well-formed block is statically allocated outside the heap. For the bytecode system, only zero-sized block (Atoms) fall in this class. For the native-code generator, data emitted by the code generator (as described in the table caml_data_segments) are also atoms. */ #ifndef NATIVE_CODE #define Is_atom(v) ((v) >= Atom(0) && (v) <= Atom(255)) #else extern char * static_data_start, * static_data_end; #define Is_atom(v) \ ((((char *)(v) >= static_data_start && (char *)(v) < static_data_end) || \ ((v) >= Atom(0) && (v) <= Atom(255)))) #endif /* Booleans are integers 0 or 1 */ #define Val_bool(x) Val_int((x) != 0) #define Bool_val(x) Int_val(x) #define Val_false Val_int(0) #define Val_true Val_int(1) #define Val_not(x) (4 - (x)) /* The unit value is 0 */ #define Val_unit Val_int(0) /* The table of global identifiers */ extern value global_data; #endif /* _mlvalues_ */