/********************************************************************* * Copyright 2018, UCAR/Unidata * See netcdf/COPYRIGHT file for copying and redistribution conditions. *********************************************************************/ #include "includes.h" #include "odom.h" /******************************************************/ /* Code for generating char variables etc; mostly language independent */ /******************************************************/ /*Forward*/ static size_t gen_charconstant(NCConstant*, Bytebuffer*, int fillchar); static int getfillchar(Datalist* fillsrc); static void gen_leafchararray(Dimset*,int,Datalist*,Bytebuffer*, int); static NCConstant* makeconst(int lineno, int len, char* str); /* Matching strings to char variables, attributes, and vlen constants is challenging because it is desirable to mimic the original ncgen(3). The "algorithms" used there have no simple characterization (such as "abc" == {'a','b','c'}). So, this rather ugly code is kept in this file and a variety of heuristics are used to mimic ncgen3. The core algorithm is as follows. 1. Assume we have a set of dimensions D1..Dn. Any of the Di may be unlimited, but it is assumed that the sizes of the Di are all known. 2. Given a sequence of string or character constants C1..Cm, our goal is to construct a single string whose length is the cross product of D1 thru Dn. 3. For purposes of this algorithm, character constants are treated as strings of size 1. 4. Construct Dx = cross product of D1 thru D(n-1). 5. For each constant Ci, add fill characters, if necessary, so that its length is a multiple of Dn. 6. Concatenate the modified C1..Cm to produce string S. 7. Add fill characters to S to make its size be a multiple of Dn. 8. If S is longer than the Dx * Dn, then truncate and generate a warning. Two special cases: 1. character vlen: char(*) vlen_t. For this case, we simply concat all the elements. 2. character attribute. For this case, we simply concat all the elements. */ void gen_chararray(Dimset* dimset, int dimindex, Datalist* data, Bytebuffer* charbuf, Datalist* fillsrc) { int fillchar = getfillchar(fillsrc); int rank = rankfor(dimset); int firstunlim = findunlimited(dimset,0); int nunlim = countunlimited(dimset); int nc3unlim = (nunlim <= 1 && (firstunlim == 0 || firstunlim == rank)); /* netcdf-3 case of at most 1 unlim in 0th dimension */ /* Case: netcdf3 case */ if(nc3unlim) { gen_leafchararray(dimset,0,data,charbuf,fillchar); return; } /* else generate should have done all the hard work */ gen_leafchararray(dimset,dimindex,data,charbuf,fillchar); } #if 0 /* Recursive helper */ static void gen_chararrayr(Dimset* dimset, int dimindex, Bytebuffer* databuf, Datalist* data, int fillchar, int unitsize, int expectedsize) { int i; size_t dimsize = declsizefor(dimset,dimindex); int rank = dimset->ndims; int firstunlim = findunlimited(dimset,0); int lastunlimited = findlastunlimited(dimset); int nextunlimited = findunlimited(dimset,dimindex+1); int islastgroup = (lastunlimited == rank || dimindex >= lastunlimited || dimindex == rank-1); Odometer* subodom = NULL; ASSERT(rank > 0); ASSERT((islastgroup)); /* we should be at a list of simple constants */ for(i=0;ilength;i++) { NCConstant* c = datalistith(data,i); ASSERT(!islistconst(c)); if(isstringable(c->nctype)) { int j; size_t constsize; constsize = gen_charconstant(c,databuf,fillchar); if(constsize % unitsize > 0) { size_t padsize = unitsize - (constsize % unitsize); for(j=0;j expectedsize, complain: exception is zero length */ if(bbLength(databuf) == 0 && expectedsize == 1) { /* this is okay */ } else if(bbLength(databuf) > expectedsize) { semwarn(data->data[0].lineno,"character data list too long; expected %d character constant, found %d: ",expectedsize,bbLength(databuf)); } else { size_t bufsize = bbLength(databuf); /* Pad to size dimproduct size */ if(bufsize % expectedsize > 0) { size_t padsize = expectedsize - (bufsize % expectedsize); for(i=0;ilength;i++) { c = datalistith(data,i); if(isstringable(c->nctype)) { (void)gen_charconstant(c,databuf,NC_FILL_CHAR); } else { semerror(constline(c), "Encountered non-string and non-char constant in datalist"); return; } } } static size_t gen_charconstant(NCConstant* con, Bytebuffer* databuf, int fillchar) { /* Following cases should be consistent with isstringable */ size_t constsize = 1; switch (con->nctype) { case NC_CHAR: bbAppend(databuf,con->value.charv); break; case NC_BYTE: bbAppend(databuf,con->value.int8v); break; case NC_UBYTE: bbAppend(databuf,con->value.uint8v); break; case NC_STRING: constsize = con->value.stringv.len; if(constsize > 0) bbAppendn(databuf,con->value.stringv.stringv, con->value.stringv.len); bbNull(databuf); break; case NC_FILL: bbAppend(databuf,fillchar); break; default: PANIC("unexpected constant type"); } return constsize; } static int getfillchar(Datalist* fillsrc) { /* Determine the fill char */ int fillchar = 0; if(fillsrc != NULL && fillsrc->length > 0) { NCConstant* ccon = fillsrc->data[0]; if(ccon->nctype == NC_CHAR) { fillchar = ccon->value.charv; } else if(ccon->nctype == NC_STRING) { if(ccon->value.stringv.len > 0) { fillchar = ccon->value.stringv.stringv[0]; } } } if(fillchar == 0) fillchar = NC_FILL_CHAR; /* default */ return fillchar; } /* I think there is a flaw in the ncgen manual about handling something like this: dimensions: n = 8 ; variables: char cdata2(n) ; data: cdata2 = '\000','\001','\002','\177','\200','\201','\376','\377'; The rules would say that each of the 8 char constants must be padded to length 8. I think this is only true if the dimension is unlimited, and even then, I am not sure. */ static void gen_leafchararray(Dimset* dimset, int dimindex, Datalist* data, Bytebuffer* charbuf, int fillchar) { int i; size_t expectedsize,xproduct,unitsize; int rank = rankfor(dimset); ASSERT(bbLength(charbuf) == 0); ASSERT((findlastunlimited(dimset) == rank || findlastunlimited(dimset) == dimindex)); /* There are a number of special cases that must be considered, mostly driven by the need to keep consistent with ncgen3. These cases are driven by the number of dimensions, which dimensions are unlimited (if any), etc. The general rule is based on the size of the last dimension, we compute the required size (after padding) of each string constant. Expected size is then the size of concat of the string constants after padding. There is another special case used for back compatibility with ncgen3. In the datalist, all sequences of character constants (i.e. 'X') are concatenated into a single string; the result, however is not concatenated with any trailing or leading string (with double quotes). */ /* Rebuild the datalist to merge '0x' constants; WARNING: this is tricky. */ { int i,cccount = 0; /* Do initial walk */ for(i=0;i 1) { Bytebuffer* accum = bbNew(); int len = 0; /* >0 implies doing accum */ Datalist* newlist = builddatalist(datalistlen(data)); int lineno = 0; NCConstant* con; /* We are going to construct a single string constant for each contiguous sequence of single char values. Assume that the constants are all primitive types */ for(i=0;ivalue.charv); len++; /* Discard this constant */ reclaimconstant(con); } else { if(len > 0) { /* End the accumulation */ bbNull(accum); con = makeconst(lineno,len,bbContents(accum)); len = 0; lineno = 0; dlappend(newlist,con); } else dlappend(newlist,con); } } /* deal with any unclosed strings */ if(len > 0) { con = makeconst(lineno,len,bbContents(accum)); len = 0; lineno = 0; dlappend(newlist,con); } bbFree(accum); /* Move the newlist sequence of constants into the old list */ efree(data->data); data->data = newlist->data; data->length = newlist->length; data->alloc = newlist->alloc; efree(newlist); } } /* Compute crossproduct up to (but not including) the last dimension */ xproduct = crossproduct(dimset,dimindex,rank-1); /* Start casing it out */ if(rank == 0) { unitsize = 1; expectedsize = (xproduct * unitsize); } else if(rank == 1) { unitsize = 1; expectedsize = (xproduct * declsizefor(dimset,rank-1)); } else if(isunlimited(dimset,rank-1)) {/* last dimension is unlimited */ unitsize = 1; expectedsize = (xproduct*declsizefor(dimset,rank-1)); } else { /* rank > 0 && last dim is not unlimited */ unitsize = declsizefor(dimset,rank-1); expectedsize = (xproduct * unitsize); } for(i=0;ilength;i++) { NCConstant* c = datalistith(data,i); ASSERT(!islistconst(c)); if(isstringable(c->nctype)) { int j; size_t constsize; constsize = gen_charconstant(c,charbuf,fillchar); if(constsize == 0 || constsize % unitsize > 0) { size_t padsize = unitsize - (constsize % unitsize); for(j=0;j expectedsize, complain: exception is zero length */ if(bbLength(charbuf) == 0 && expectedsize == 1) { /* this is okay */ } else if(bbLength(charbuf) > expectedsize) { semwarn(data->data[0]->lineno,"character data list too long; expected %d character constant, found %d: ",expectedsize,bbLength(charbuf)); } else { size_t bufsize = bbLength(charbuf); /* Pad to size dimproduct size */ if(bufsize % expectedsize > 0) { size_t padsize = expectedsize - (bufsize % expectedsize); for(i=0;inctype = NC_STRING; con->lineno = lineno; con->filled = 0; con->value.stringv.len = len; /* We cannot use strdup because str might have embedded nuls */ con->value.stringv.stringv = (char*)ecalloc(len+1); memcpy((void*)con->value.stringv.stringv,(void*)str,len); con->value.stringv.stringv[len] = '\0'; return con; }