netcdf-c/libdap2/dapalign.c
2012-04-01 20:15:06 +00:00

333 lines
11 KiB
C

/*********************************************************************
* Copyright 1993, UCAR/Unidata
* See netcdf/COPYRIGHT file for copying and redistribution conditions.
* $Header: /upc/share/CVS/netcdf-3/libncdap3/dapalign.c,v 1.5 2009/09/23 22:26:00 dmh Exp $
*********************************************************************/
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* Copyright by the Board of Trustees of the University of Illinois. *
* All rights reserved. *
* *
* This file is part of HDF5. The full HDF5 copyright notice, including *
* terms governing use, modification, and redistribution, is contained in *
* the files COPYING and Copyright.html. COPYING can be found at the root *
* of the source code distribution tree; Copyright.html can be found at the *
* root level of an installed copy of the electronic HDF5 document set and *
* is linked from the top-level documents page. It can also be found at *
* http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have *
* access to either file, you may request a copy from help@hdfgroup.org. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*
This code is a variantion of the H5detect.c code from HDF5.
Author: D. Heimbigner 10/7/2008
*/
#include "config.h"
#ifndef OFFSETTEST
#include "ncdap3.h"
#else
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#endif
#include "dapnc.h"
#include "dapdebug.h"
#include "dapalign.h"
typedef struct nccalignvlen_t {
size_t len;
void* p;
} nccalignvlen_t;
#ifdef OFFSETTEST
typedef int nc_type;
#define NC_NAT 0 /* NAT = 'Not A Type' (c.f. NaN) */
#define NC_BYTE 1 /* signed 1 byte integer */
#define NC_CHAR 2 /* ISO/ASCII character */
#define NC_SHORT 3 /* signed 2 byte integer */
#define NC_INT 4 /* signed 4 byte integer */
#define NC_FLOAT 5 /* single precision floating point number */
#define NC_DOUBLE 6 /* double precision floating point number */
#define NC_UBYTE 7 /* unsigned 1 byte int */
#define NC_USHORT 8 /* unsigned 2-byte int */
#define NC_UINT 9 /* unsigned 4-byte int */
#define NC_INT64 10 /* signed 8-byte int */
#define NC_UINT64 11 /* unsigned 8-byte int */
#define NC_STRING 12 /* string */
#define NC_VLEN 13
#define NC_OPAQUE 14
#endif
/*
The heart of this is the following macro,
which computes the offset of a field x
when preceded by a char field.
The assumptions appear to be as follows:
1. the offset produced in this situation indicates
the alignment for x relative in such a way that it
depends only on the types that precede it in the struct.
2. the compiler does not reorder fields.
3. arrays are tightly packed.
4. nested structs are alignd according to their first member
(this actually follows from C language requirement that
a struct can legally be cast to an instance of its first member).
Given the alignments for the various common primitive types,
it is assumed that one can use them anywhere to construct
the layout of a struct of such types.
It seems to work for HDF5 for a wide variety of machines.
*/
#define COMP_ALIGNMENT(DST,TYPE) {\
struct {char f1; TYPE x;} tmp; \
DST.typename = #TYPE ; \
DST.alignment = (size_t)((char*)(&(tmp.x)) - (char*)(&tmp));}
#define NCCTYPECOUNT (NCCTYPENCVLEN+1)
static NCtypealignvec vec[NCCTYPECOUNT];
static NCtypealignset set;
static int dapaligninit = 0;
unsigned int
ncctypealignment(int nctype)
{
NCtypealignment* align = NULL;
int index = 0;
if(!dapaligninit) compute_nccalignments();
switch (nctype) {
case NC_BYTE: index = NCCTYPEUCHAR; break;
case NC_CHAR: index = NCCTYPECHAR; break;
case NC_SHORT: index = NCCTYPESHORT; break;
case NC_INT: index = NCCTYPEINT; break;
case NC_FLOAT: index = NCCTYPEFLOAT; break;
case NC_DOUBLE: index = NCCTYPEDOUBLE; break;
case NC_UBYTE: index = NCCTYPEUCHAR; break;
case NC_USHORT: index = NCCTYPEUSHORT; break;
case NC_UINT: index = NCCTYPEUINT; break;
case NC_INT64: index = NCCTYPELONGLONG; break;
case NC_UINT64: index = NCCTYPEULONGLONG; break;
case NC_STRING: index = NCCTYPEPTR; break;
case NC_VLEN: index = NCCTYPENCVLEN; break;
case NC_OPAQUE: index = NCCTYPEUCHAR; break;
default:
#ifndef OFFSETTEST
PANIC1("nctypealignment: bad type code: %d",nctype);
#else
return 0;
#endif
}
align = &vec[index];
return align->alignment;
}
void
compute_nccalignments(void)
{
/* Compute the alignments for all the common C data types*/
/* First for the struct*/
/* initialize*/
memset((void*)&set,0,sizeof(set));
memset((void*)vec,0,sizeof(vec));
COMP_ALIGNMENT(set.charalign,char);
COMP_ALIGNMENT(set.ucharalign,unsigned char);
COMP_ALIGNMENT(set.shortalign,short);
COMP_ALIGNMENT(set.ushortalign,unsigned short);
COMP_ALIGNMENT(set.intalign,int);
COMP_ALIGNMENT(set.uintalign,unsigned int);
COMP_ALIGNMENT(set.longalign,long);
COMP_ALIGNMENT(set.ulongalign,unsigned long);
COMP_ALIGNMENT(set.longlongalign,long long);
COMP_ALIGNMENT(set.ulonglongalign,unsigned long long);
COMP_ALIGNMENT(set.floatalign,float);
COMP_ALIGNMENT(set.doublealign,double);
COMP_ALIGNMENT(set.ptralign,void*);
COMP_ALIGNMENT(set.ncvlenalign,nccalignvlen_t);
/* Then the vector*/
COMP_ALIGNMENT(vec[NCCTYPECHAR],char);
COMP_ALIGNMENT(vec[NCCTYPEUCHAR],unsigned char);
COMP_ALIGNMENT(vec[NCCTYPESHORT],short);
COMP_ALIGNMENT(vec[NCCTYPEUSHORT],unsigned short);
COMP_ALIGNMENT(vec[NCCTYPEINT],int);
COMP_ALIGNMENT(vec[NCCTYPEUINT],unsigned int);
COMP_ALIGNMENT(vec[NCCTYPELONG],long);
COMP_ALIGNMENT(vec[NCCTYPEULONG],unsigned long);
COMP_ALIGNMENT(vec[NCCTYPELONGLONG],long long);
COMP_ALIGNMENT(vec[NCCTYPEULONGLONG],unsigned long long);
COMP_ALIGNMENT(vec[NCCTYPEFLOAT],float);
COMP_ALIGNMENT(vec[NCCTYPEDOUBLE],double);
COMP_ALIGNMENT(vec[NCCTYPEPTR],void*);
COMP_ALIGNMENT(vec[NCCTYPENCVLEN],nccalignvlen_t);
dapaligninit = 1;
}
/* Compute padding */
int
nccpadding(unsigned long offset, int alignment)
{
int pad,rem;
rem = (alignment==0?0:(offset % alignment));
pad = (rem==0?0:(alignment - rem));
return pad;
}
#ifdef OFFSETTEST
#define COMP_ALIGNMENT1(DST,TYPE1,TYPE) {\
struct {TYPE1 f1; TYPE x;} tmp; \
DST.typename = #TYPE ; \
DST.alignment = (size_t)((char*)(&(tmp.x)) - (char*)(&tmp));}
#define COMP_ALIGNMENT2(DST,TYPE1,TYPE2,TYPE) {\
struct {TYPE1 f1, TYPE2 f2; TYPE x;} tmp; \
DST.typename = #TYPE ; \
DST.alignment = (size_t)((char*)(&(tmp.x)) - (char*)(&tmp));}
#define COMP_SIZE0(DST,TYPE1,TYPE2) {\
struct {TYPE1 c; TYPE2 x;} tmp; \
DST = sizeof(tmp); }
static char*
padname(char* name)
{
#define MAX 20
if(name == NULL) name = "null";
int len = strlen(name);
if(len > MAX) len = MAX;
char* s = (char*)malloc(MAX+1);
memset(s,' ',MAX);
s[MAX+1] = '\0';
strncpy(s,name,len);
return s;
}
static void
verify(NCtypealignvec* vec)
{
int i,j;
NCtypealignvec* vec16;
NCtypealignvec* vec32;
int* sizes8;
int* sizes16;
int* sizes32;
vec16 = (NCtypealignvec*)malloc(sizeof(NCtypealignvec)*NCCTYPECOUNT);
vec32 = (NCtypealignvec*)malloc(sizeof(NCtypealignvec)*NCCTYPECOUNT);
sizes8 = (int*)malloc(sizeof(int)*NCCTYPECOUNT);
sizes16 = (int*)malloc(sizeof(int)*NCCTYPECOUNT);
sizes32 = (int*)malloc(sizeof(int)*NCCTYPECOUNT);
COMP_SIZE0(sizes8[1],char,char);
COMP_SIZE0(sizes8[2],unsigned char,char);
COMP_SIZE0(sizes8[3],short,char);
COMP_SIZE0(sizes8[4],unsigned short,char);
COMP_SIZE0(sizes8[5],int,char);
COMP_SIZE0(sizes8[6],unsigned int,char);
COMP_SIZE0(sizes8[7],long,char);
COMP_SIZE0(sizes8[8],unsigned long,char);
COMP_SIZE0(sizes8[9],long long,char);
COMP_SIZE0(sizes8[10],unsigned long long,char);
COMP_SIZE0(sizes8[11],float,char);
COMP_SIZE0(sizes8[12],double,char) ;
COMP_SIZE0(sizes8[13],void*,char);
COMP_SIZE0(sizes8[14],alignvlen_t,char);
COMP_SIZE0(sizes16[1],char,short);
COMP_SIZE0(sizes16[2],unsigned char,short);
COMP_SIZE0(sizes16[3],short,short);
COMP_SIZE0(sizes16[4],unsigned short,short);
COMP_SIZE0(sizes16[5],int,short);
COMP_SIZE0(sizes16[6],unsigned int,short);
COMP_SIZE0(sizes16[7],long,short);
COMP_SIZE0(sizes16[8],unsigned long,short);
COMP_SIZE0(sizes16[9],long long,short);
COMP_SIZE0(sizes16[10],unsigned long long,short);
COMP_SIZE0(sizes16[11],float,short);
COMP_SIZE0(sizes16[12],double,short) ;
COMP_SIZE0(sizes16[13],void*,short);
COMP_SIZE0(sizes16[14],alignvlen_t*,short);
COMP_SIZE0(sizes32[1],char,int);
COMP_SIZE0(sizes32[2],unsigned char,int);
COMP_SIZE0(sizes32[3],short,int);
COMP_SIZE0(sizes32[4],unsigned short,int);
COMP_SIZE0(sizes32[5],int,int);
COMP_SIZE0(sizes32[6],unsigned int,int);
COMP_SIZE0(sizes32[7],long,int);
COMP_SIZE0(sizes32[8],unsigned long,int);
COMP_SIZE0(sizes32[9],long long,int);
COMP_SIZE0(sizes32[10],unsigned long long,int);
COMP_SIZE0(sizes32[11],float,int);
COMP_SIZE0(sizes32[12],double,int) ;
COMP_SIZE0(sizes32[13],void*,int);
COMP_SIZE0(sizes32[14],alignvlen_t*,int);
COMP_ALIGNMENT1(vec16[1],char,short);
COMP_ALIGNMENT1(vec16[2],unsigned char,short);
COMP_ALIGNMENT1(vec16[3],short,short);
COMP_ALIGNMENT1(vec16[4],unsigned short,short);
COMP_ALIGNMENT1(vec16[5],int,short);
COMP_ALIGNMENT1(vec16[6],unsigned int,short);
COMP_ALIGNMENT1(vec32[7],long,short);
COMP_ALIGNMENT1(vec32[8],unsigned long,short);
COMP_ALIGNMENT1(vec32[9],long long,short);
COMP_ALIGNMENT1(vec32[10],unsigned long long,short);
COMP_ALIGNMENT1(vec16[11],float,short);
COMP_ALIGNMENT1(vec16[12],double,short);
COMP_ALIGNMENT1(vec16[13],void*,short);
COMP_ALIGNMENT1(vec16[14],alignvlen_t*,short);
COMP_ALIGNMENT1(vec32[1],char,short);
COMP_ALIGNMENT1(vec32[2],unsigned char,short);
COMP_ALIGNMENT1(vec32[3],char,short);
COMP_ALIGNMENT1(vec32[4],unsigned short,short);
COMP_ALIGNMENT1(vec32[5],int,int);
COMP_ALIGNMENT1(vec32[6],unsigned int,int);
COMP_ALIGNMENT1(vec32[7],long,int);
COMP_ALIGNMENT1(vec32[8],unsigned long,int);
COMP_ALIGNMENT1(vec32[9],long long,int);
COMP_ALIGNMENT1(vec32[10],unsigned long long,int);
COMP_ALIGNMENT1(vec32[11],float,int);
COMP_ALIGNMENT1(vec32[12],double,int);
COMP_ALIGNMENT1(vec32[13],void*,int);
COMP_ALIGNMENT1(vec32[14],alignvlen_t*,int);
for(i=0;i<NCCTYPECOUNT;i++) {
printf("%s: size=%2d alignment=%2d\n",
padname(vec[i].typename),sizes8[i],vec[i].alignment);
}
for(i=0;i<NCCTYPECOUNT;i++) {
printf("short vs %s: size=%2d alignment=%2d\n",
padname(vec[i].typename),sizes16[i],vec16[i].alignment);
}
for(i=0;i<NCCTYPECOUNT;i++) {
printf("int vs %s: size=%2d alignment=%2d\n",
padname(vec[i].typename),sizes32[i],vec32[i].alignment);
}
}
int
main(int argc, char** argv)
{
int i;
compute_nccalignments();
verify(vec);
/*
for(i=0;i<NCCTYPECOUNT;i++) {
printf("%s:\talignment=%d\n",vec[i].typename,vec[i].alignment);
}
*/
exit(0);
}
#endif /*OFFSETTEST*/