Page Menu
Home
c4science
Search
Configure Global Search
Log In
Files
F90598252
txt2html.cpp
No One
Temporary
Actions
Download File
Edit File
Delete File
View Transforms
Subscribe
Mute Notifications
Award Token
Subscribers
None
File Metadata
Details
File Info
Storage
Attached
Created
Sun, Nov 3, 02:27
Size
25 KB
Mime Type
text/x-c
Expires
Tue, Nov 5, 02:27 (2 d)
Engine
blob
Format
Raw Data
Handle
19680197
Attached To
rLAMMPS lammps
txt2html.cpp
View Options
// txt2html - written by Steve Plimpton, May 2004
// table formatting by Anna Reese, Jul 2004
// Sandia National Labs, www.cs.sandia.gov/~sjplimp
//
// txt2html converts a text file with simple formatting & markup into HTML
// formatting & markup specification is given in README
//
// Syntax: txt2html options file read one file, write to stdout
// txt2html optoins file1 file2 ... read files, write files.html
//
// options:
// -b = add a page-break comment to end of each HTML file
// useful when set of HTML files will be converted to PDF
// -x file = skip a file even if it appears in file list
// specify full file name of input file
// input files are first opened as-is
// if that fails a .txt suffix is added
// output files have an .html suffix added or replaced
// (unless written to stdout)
#include <string>
#include <vector>
#include <iostream>
#include <cstdio>
#include <cstdlib>
#include <cstring>
using namespace std;
#define MAXLINE 1024
// function prototypes
static int next_paragraph(FILE *fp, string ¶graph);
static int index_of_first_char_of_last_word(string ¶graph);
static void process_commands(int flag, string &s, string &pre, string &post);
static void substitute(string &s);
static string td_tag(int currentc);
static long find_n(string &s, int nend, int &n1);
static void file_open(int npair, string &infile, FILE **in, FILE **out);
// global variables for links, tables, lists, all command
vector<string> alias1;
vector<string> alias2;
int nlink;
int tableflag; // makes a table if tb command specified
int rowquit; // number of cols per row if c=N specified (default = 0)
string dwidth; // width for all of the columns
string tabledelim; // speciallized separator
string tablealign; // alignment for the table as an image
string dataalign; // alignment for data in table
string rowvalign; // vertical alignment for table
int ncnum; // # of columns with specified width
vector<int> cnum; // column IDs
vector<string> cwidth; // column widths
int ncalign; // # of columns with specified alignment
vector<int> acolnum; // column IDs
vector<string> colalign ; // column alignment
int ncvalign; // # of columns with specified vertical alignment
vector<int> vacolnum; // column IDs
vector<string> colvalign ; // column vertical alignment
string listflag;
string allflag;
// main program
int main(int narg, char **arg)
{
int npair;
size_t n;
string *infile;
FILE *in,*out;
int style,ifirst,ilast;
string raw,pre,post,body,commands,final;
// parse command-line options and args
// setup list of files to process
// npair = # of files to process
// infile = input file names
if (narg == 1) {
fprintf(stderr,"Syntax: txt2html options file\n");
fprintf(stderr," txt2html options file1 file2 ...\n");
exit(1);
}
int breakflag = 0;
int nskip = 0;
char **skipfiles = NULL;
int iarg = 1;
while (arg[iarg][0] == '-') {
if (strcmp(arg[iarg],"-b") == 0) breakflag = 1;
else if (strcmp(arg[iarg],"-x") == 0) {
skipfiles = (char **) realloc(skipfiles,(nskip+1)*sizeof(char *));
n = strlen(arg[iarg+1]) + 1;
skipfiles[nskip] = new char[n];
strcpy(skipfiles[nskip],arg[iarg+1]);
nskip++;
iarg++;
} else {
fprintf(stderr,"Syntax: txt2html options file\n");
fprintf(stderr," txt2html options file1 file2 ...\n");
exit(1);
}
iarg++;
}
if (narg-iarg == 1) {
npair = 1;
infile = new string[npair];
infile[0] = arg[narg-1];
} else {
npair = narg-iarg;
infile = new string[npair];
for (int i = 0; i < npair; i++) infile[i] = arg[i+iarg];
}
// loop over files
for (int ipair = 0; ipair < npair; ipair++) {
// skip file if matches -x switch
int flag = 0;
for (int i = 0; i < nskip; i++)
if (strcmp(infile[ipair].c_str(),skipfiles[i]) == 0) flag = 1;
if (flag) continue;
// clear global variables before processing file
alias1.clear();
alias2.clear();
nlink = 0;
tableflag = 0;
listflag = "";
allflag = "";
// open files & message to screen
file_open(0,infile[ipair],&in,&out);
fprintf(stderr,"Converting %s ...\n",infile[ipair].c_str());
// scan file for link definitions
// read file one paragraph at a time
// process commands, looking only for link definitions
while ((style = next_paragraph(in,raw))) {
if (style == 2) {
int n = index_of_first_char_of_last_word(raw);
commands = raw.substr(n+1);
process_commands(0,commands,pre,post);
}
raw.erase();
}
// close & reopen files
fclose(in);
file_open(npair,infile[ipair],&in,&out);
// write leading <HTML>
fprintf(out,"<HTML>\n");
// process entire file
// read file one paragraph at a time
// delete newlines when line-continuation char at end-of-line
// process commands for each paragraph
// substitute text for each paragraph
// write HTML to output file
while ((style = next_paragraph(in,raw))) {
n = raw.find("\\\n");
while (n < string::npos) {
raw.erase(n,2);
n = raw.find("\\\n");
}
ifirst = raw.find_first_not_of(" \t\n");
ilast = raw.find_last_not_of(" \t\n");
pre.erase();
post.erase();
if (raw[ifirst] == '<' && raw[ilast] == '>') {
body = raw;
} else if (style == 1) {
body = raw;
commands = "p\n";
process_commands(1,commands,pre,post);
substitute(body);
} else {
int n = index_of_first_char_of_last_word(raw);
body = raw.substr(0,n) + "\n";
commands = raw.substr(n+1);
process_commands(1,commands,pre,post);
substitute(body);
}
final = pre + body + post;
fprintf(out,"%s\n",final.c_str());
raw.erase();
}
// write trailing </HTML>
if (breakflag) fprintf(out,"<!-- PAGE BREAK -->\n");
fprintf(out,"</HTML>\n");
// close files
fclose(in);
if (out != stdout) fclose(out);
}
// clean up memory
for (int i = 0; i < nskip; i++) delete [] skipfiles[i];
if (skipfiles) free(skipfiles);
delete [] infile;
}
// return next paragraph as string
// discard leading blank lines
// paragraph is terminated by:
// EOF or blank line or line ending with command that starts with ":"
// return 0 if EOF and no paragraph
// return 1 if no trailing command
// return 2 if trailing command
int next_paragraph(FILE *fp, string ¶graph)
{
char *ptr;
char str[MAXLINE];
int first = 1;
int len = 0;
while (1) {
ptr = fgets(str,MAXLINE,fp);
if (ptr == NULL && first) return 0;
if (ptr == NULL) return 1;
len = strlen(str);
if (len == MAXLINE-1) {
fprintf(stderr,"ERROR: File has too-long a string - increase MAXLINE\n");
exit(1);
}
// check for valid 7-bit ascii characters
bool nonascii = false;
for (int i=0; i < len; ++i) {
char c = str[i];
if (c != '\n' && c != '\t' && (c < ' ' || c > '~'))
nonascii = true;
}
if (nonascii)
fprintf(stderr,"WARNING: Non-portable characters in line: %s",ptr);
if (strspn(str," \t\n") == strlen(str) && first) continue;
if (strspn(str," \t\n") == strlen(str)) return 1;
first = 0;
paragraph += str;
if (paragraph[index_of_first_char_of_last_word(paragraph)] == ':')
return 2;
}
}
// return index of first char in last word of paragraph string
int index_of_first_char_of_last_word(string ¶graph)
{
size_t n = paragraph.find_last_not_of(" \t\n");
size_t m = paragraph.find_last_of(" \t\n",n);
if (m == string::npos) return 0;
else return m+1;
}
// apply commands one after the other to the paragraph
void process_commands(int flag, string &s, string &pre, string &post)
{
size_t start,stop,last;
int narg;
string command;
vector<string> arg;
start = 0;
last = s.find_last_not_of(" \t\n");
if (last == string::npos) return;
while (start <= last) {
// grab a single command with optional arguments
// command = name of command
// narg = # of args
// arg = list of argument strings
stop = s.find_first_of(",( \t\n",start);
if (s[stop] == '(') {
command = s.substr(start,stop-start);
start = stop+1;
narg = 0;
while (1) {
stop = s.find_first_of(",)",start);
if (stop == string::npos) {
fprintf(stderr,"ERROR: No trailing parenthesis in %s\n",s.c_str());
exit(1);
}
arg.resize(narg+1);
arg[narg] = s.substr(start,stop-start);
narg++;
start = stop+1;
if (s[stop] == ')') {
start++;
break;
}
}
} else {
command = s.substr(start,stop-start);
start = stop+1;
narg = 0;
}
// if only in scan mode, just operate on link command
if (flag == 0) {
if (command == "link" && narg == 2) {
// s.erase(s.length()-1,1);
for (int i = 0; i < nlink; i++)
if (alias1[i] == arg[0]) {
fprintf(stderr,"ERROR: Link %s appears more than once\n",
arg[0].c_str());
exit(1);
}
alias1.resize(nlink+1);
alias2.resize(nlink+1);
alias1[nlink] = arg[0];
alias2[nlink] = arg[1];
nlink++;
} else continue;
}
// process the command
if (command == "line") {
pre.append("<HR>");
} else if (command == "p") {
pre.append("<P>");
post.insert(0,"</P>");
} else if (command == "pre") {
pre.append("<PRE>");
post.insert(0,"</PRE>");
} else if (command == "c") {
pre.append("<CENTER>");
post.insert(0,"</CENTER>");
} else if (command == "h1") {
pre.append("<H1>");
post.insert(0,"</H1>");
} else if (command == "h2") {
pre.append("<H2>");
post.insert(0,"</H2>");
} else if (command == "h3") {
pre.append("<H3>");
post.insert(0,"</H3>");
} else if (command == "h4") {
pre.append("<H4>");
post.insert(0,"</H4>");
} else if (command == "h5") {
pre.append("<H5>");
post.insert(0,"</H5>");
} else if (command == "h6") {
pre.append("<H6>");
post.insert(0,"</H6>");
} else if (command == "b") {
post.insert(0,"<BR>");
} else if (command == "ulb") {
pre.append("<UL>");
} else if (command == "ule") {
post.insert(0,"</UL>");
} else if (command == "olb") {
pre.append("<OL>");
} else if (command == "ole") {
post.insert(0,"</OL>");
} else if (command == "dlb") {
pre.append("<DL>");
} else if (command == "dle") {
post.insert(0,"</DL>");
} else if (command == "l") {
pre.append("<LI>");
} else if (command == "dt") {
pre.append("<DT>");
} else if (command == "dd") {
pre.append("<DD>");
} else if (command == "ul") {
listflag = command;
pre.append("<UL>");
post.insert(0,"</UL>");
} else if (command == "ol") {
listflag = command;
pre.append("<OL>");
post.insert(0,"</OL>");
} else if (command == "dl") {
listflag = command;
pre.append("<DL>");
post.insert(0,"</DL>");
} else if (command == "link") {
if (narg == 1) {
string aname = "<A NAME = \"" + arg[0] + "\"></A>";
pre.append(aname);
}
} else if (command == "image") {
if (narg == 1) {
string img = "<IMG SRC = \"" + arg[0] + "\">";
pre.append(img);
} else if (narg == 2) {
string img = "<A HREF = \"" + arg[1] + "\">" +
"<IMG SRC = \"" + arg[0] + "\">" + "</A>";
pre.append(img);
}
}else if (command == "tb") { // read the table command and set settings
tableflag = 1;
string tableborder = "1"; // these are the table defaults
rowquit = 0;
tablealign = "c";
dataalign = "0";
rowvalign = "0";
ncnum = 0;
ncalign = 0;
ncvalign = 0;
cnum.clear();
acolnum.clear();
vacolnum.clear();
cwidth.clear();
colalign.clear();
colvalign.clear();
tabledelim = ",";
string tw = "";
dwidth = "0";
for (int i = 0; i < narg; i++) { // loop through each tb() arg
int tbstop;
string tbcommand;
tbstop = 0;
tbstop = arg[i].find("=");
tbcommand = arg[i].substr(0,tbstop);
int n = arg[i].length();
if (tbstop == -1) {
continue;
} else if (tbcommand == "c") {
string collumn= arg[i].substr (tbstop+1,n-(tbstop+1));
rowquit = atoi(collumn.c_str());
} else if (tbcommand == "s") {
tabledelim= arg[i].substr (tbstop+1,n-(tbstop+1));
} else if (tbcommand == "b") {
tableborder= arg[i].substr (tbstop+1,n-(tbstop+1));
} else if (tbcommand == "w") {
string width = "0";
if (arg[i].substr (n-1,1) == "%") {
string width = arg[i].substr (tbstop+1,n-(tbstop+1));
tw = " WIDTH=\"" + width + "\"";
} else
dwidth = arg[i].substr (tbstop+1,n-(tbstop+1));
} else if (tbcommand == "ea") {
dataalign= arg[i].substr (tbstop+1,n-(tbstop+1));
} else if (tbcommand == "eva") {
rowvalign= arg[i].substr (tbstop+1,n-(tbstop+1));
} else if (tbcommand == "a") {
tablealign= arg[i].substr (tbstop+1,n-(tbstop+1));
} else if (tbcommand.substr(0,2) == "cw") {
string cwnum= tbcommand.substr(2,tbstop-1);
cnum.resize(ncnum+1);
cnum[ncnum] = atoi(cwnum.c_str());
cwidth.resize(ncnum+1);
cwidth[ncnum]= arg[i].substr(tbstop+1,n-(tbstop+1));
ncnum++;
} else if (tbcommand.substr(0,2) == "ca") {
string canum= tbcommand.substr(2,tbstop-1);
acolnum.resize(ncalign+1);
acolnum[ncalign] = atoi(canum.c_str());
colalign.resize(ncalign+1);
colalign[ncalign]= arg[i].substr(tbstop+1,n-(tbstop+1));
ncalign++;
} else if (tbcommand.substr(0,3) == "cva") {
string cvanum= tbcommand.substr(2,tbstop-1);
vacolnum.resize(ncvalign+1);
vacolnum[ncvalign] = atoi(cvanum.c_str());
colvalign.resize(ncvalign+1);
colvalign[ncvalign]= arg[i].substr(tbstop+1,n-(tbstop+1));
ncvalign++;
} else {
fprintf(stderr,
"ERROR: Unrecognized table command %s\n",tbcommand.c_str());
exit(1);
}
tbstop = s.find("=");
}
string align;
if (tablealign=="c") align="center";
else if (tablealign=="r") align="right ";
else if (tablealign=="l") align="left ";
else align="center";
string tablea = "<DIV ALIGN=" + align + ">" ;
pre.append(tablea);
pre.append("<TABLE ");
pre.append(tw);
string border=" BORDER=" + tableborder + " >\n";
pre.append(border);
post.insert(0,"</TD></TR></TABLE></DIV>\n");
} else if (command == "all") {
if (narg == 1) allflag = arg[0];
} else {
fprintf(stderr,"ERROR: Unrecognized command %s\n",command.c_str());
exit(1);
}
}
}
// perform substitutions within text of paragraph
void substitute(string &s)
{
size_t n,m,p;
char c;
string text,link,href;
string punctuation = ".,?!;:()";
// substitute for bold & italic markers
// if preceeded by \ char, then leave markers in text
n = s.find_first_of("[]{}");
while (n != string::npos) {
c = s[n];
if (n > 0 && s[n-1] == '\\') s.erase(n-1,1);
else {
s.erase(n,1);
if (c == '[') s.insert(n,"<B>");
else if (c == ']') s.insert(n,"</B>");
else if (c == '{') s.insert(n,"<I>");
else if (c == '}') s.insert(n,"</I>");
}
n = s.find_first_of("[]{}",n);
}
// substitute for links
n = s.find("\"_");
while (n != string::npos) {
m = s.rfind("\"",n-1);
if (m == string::npos) {
fprintf(stderr,"ERROR: Could not find matching \" for \"_ in %s\n",
s.c_str());
exit(1);
}
p = s.find_first_of(" \t\n",n) - 1;
if (p == string::npos) {
fprintf(stderr,"ERROR: Could not find end-of-link in %s\n",s.c_str());
exit(1);
}
while (s.find_first_of(".,?!;:()",p) == p) p--;
text = s.substr(m+1,n-m-1);
link = s.substr(n+2,p-n-1);
for (int i = 0; i < nlink; i++)
if (alias1[i] == link) {
link = alias2[i];
break;
}
s.erase(m,p-m+1);
href = "<A HREF = \"" + link + "\">" + text + "</A>";
s.insert(m,href);
n = s.find("\"_");
}
// format the paragraph as a table
if (tableflag) {
tableflag = 0;
string DT;
// set up <TR> tag
// alignment for data in rows
string tbalign;
if (dataalign != "0"){
string align;
if (dataalign=="c") align="\"center\"";
else if (dataalign=="r") align="\"right\"";
else if (dataalign=="l") align="\"left\"";
else {
fprintf(stderr,
"ERROR: Unrecognized table alignment argument %s for ea=X\n",
dataalign.c_str());
exit(1);
}
tbalign = " ALIGN=" + align;
} else tbalign="";
// set up vertical alignment for particular columns
string va;
if (rowvalign != "0"){
string valign;
if (rowvalign == "t") valign= "top";
else if (rowvalign == "m") valign= "middle";
else if (rowvalign == "ba") valign= "baseline";
else if (rowvalign == "bo") valign= "bottom";
else {
fprintf(stderr,
"ERROR: Unrecognized table alignment argument %s for eva=X\n",
rowvalign.c_str());
exit(1);
}
va = " VALIGN =\"" + valign + "\"";
} else va="";
//tr_tag is keyword for data in rows
string tr_tag= "<TR" + tbalign + va + ">";
//declare integers to help with counting and finding position
int currentc=0; // current column
int nend = 0;
int n1=0;
long n = find_n(s,nend,n1);
// if there are no separators, go to the end of the string
if (n < 0) n = s.length();
// while n exists:
while (n != static_cast<long>(string::npos)) {
// ignore = 0 when pass by \n because looking for delimiters only
// when ignore==0 do not put in a <tr>
int ignore=1;
// For each loop starts nend at n
nend=n;
// current column is 0, (very first loop), insert first <TR>
if (currentc == 0){
currentc++;
DT=td_tag(currentc);
s.insert(0,tr_tag);
s.insert(tr_tag.length(),DT);
nend=nend+tr_tag.length()+DT.length();
n = find_n(s,nend,n1);
if (n==n1) currentc++;
else {
// currentc will remain one if rowquit==0
if (rowquit>0){
s.erase(n,1);
n = find_n(s,nend,n1);
currentc++;
}
}
} else {
// if n is separator
if (n == n1){
s.erase(n,tabledelim.length());
if(currentc==(rowquit+1)&& rowquit!=0){
s.insert(nend,"</TD></TR>\n");
nend=nend+11;
// set current column back to one to start new line
currentc=1;
}else{
DT= td_tag(currentc);
s.insert (nend,"</TD>");
nend=nend+5;
s.insert (nend,DT);
nend=nend+DT.length();
// add one so current column is updated
currentc++;
n = find_n(s,nend,n1);
}
}
//if n is newline character
else{
s.erase(n,1);
// if columns == 0 means ARE searching for newlines
// else erase and ignore insert <tr> later and
// search for next separator
if (rowquit==0){
s.insert(nend,"</TD></TR>\n");
nend=nend+11;
// set current column back to one to start new line
currentc=1;
}else{
ignore=0;
n = find_n(s,nend,n1);
}
}
// if we are at the beginning of the row then insert <TR>
if (currentc==1&&ignore) {
DT = td_tag(currentc); // find DT for currentc=1
s.insert(nend,tr_tag);
nend=nend+tr_tag.length();
s.insert(nend,DT);
n = find_n(s,nend,n1); // search for next separator
currentc++;
}
} // end to else statement
} // end to while loop
} // end to if tableflag
// if listflag is set, put list marker at beginning of every line
if (listflag != "") {
string marker;
int toggle = 0;
n = s.find('\n');
while (n != string::npos) {
m = s.rfind('\n',n-1);
if (listflag == "dl" && toggle == 0) marker = "<DT>";
else if (listflag == "dl" && toggle == 1) marker = "<DD>";
else marker = "<LI>";
if (m == string::npos) s.insert(0,marker);
else s.insert(m+1,marker);
n = s.find('\n',m+1);
n = s.find('\n',n+1);
if (toggle) toggle = 0;
else toggle = 1;
}
listflag = "";
}
// if allflag is set, add markers to every line
if (allflag != "") {
string marker1,marker2;
if (allflag == "p") {
marker1 = "<P>";
marker2 = "</P>";
} else if (allflag == "c") {
marker1 = "<CENTER>";
marker2 = "</CENTER>";
} else if (allflag == "b") {
marker1 = "";
marker2 = "<BR>";
} else if (allflag == "l") {
marker1 = "<LI>";
marker2 = "";
} else marker1 = marker2 = "";
n = s.find('\n');
while (n != string::npos) {
m = s.rfind('\n',n-1);
if (m == string::npos) s.insert(0,marker1);
else s.insert(m+1,marker1);
n = s.find('\n',m+1);
s.insert(n,marker2);
n = s.find('\n',n);
n = s.find('\n',n+1);
}
allflag = "";
}
}
// open input file as-is or as file.txt
// if npair = 0, don't open output file (is just initial pass thru input)
// if npair = 1, open output file as stdout
// if npair > 1, open output file with .html suffix
// either replace .txt in input file, or append .html
void file_open(int npair, string &infile, FILE **in, FILE **out)
{
*in = fopen(infile.c_str(),"r");
if (*in == NULL) {
string root = infile;
infile = infile + ".txt";
*in = fopen(infile.c_str(),"r");
if (*in == NULL) {
fprintf(stderr,"ERROR: Could not open %s or %s\n",
root.c_str(),infile.c_str());
exit(1);
}
}
if (npair == 0) return;
else if (npair == 1) *out = stdout;
else {
string outfile;
size_t pos = infile.rfind(".txt");
if (pos == infile.length()-4) outfile = infile.substr(0,pos) + ".html";
else outfile = infile + ".html";
*out = fopen(outfile.c_str(),"w");
if (*out == NULL) {
fprintf(stderr,"ERROR: Could not open %s\n",outfile.c_str());
exit(1);
}
}
}
// for tables:
// build <TD> string (DT) based on current column
string td_tag(int currentc) {
// eacolumn gives the alignment printout of a specific column
string eacolumn;
// va gives vertical alignment to a specific column
string va;
// DT is the complete <td> tag, with width and align
string DT;
// dw is the width for tables. It is also the <dt> tag beginning
string dw;
// set up alignment for particular columns
for (int counter=0; counter < ncalign; counter++){
if (ncalign != 0 && acolnum[counter] == currentc){
string align;
if (colalign[counter] == "l") align= "left";
else if (colalign[counter] == "r") align= "right";
else if (colalign[counter] == "c") align= "center";
else {
fprintf(stderr,
"ERROR: Unrecognized table alignment argument %s for caM=X\n",
colalign[counter].c_str());
exit(1);
}
eacolumn= " ALIGN =\"" + align +"\"";
}else eacolumn= "";
}
// set up vertical alignment for particular columns
for (int counter=0; counter < ncvalign; counter++){
if (ncvalign != 0 && vacolnum[counter] == currentc){
string valign;
if (colvalign[counter] == "t") valign= "top";
else if (colvalign[counter] == "m") valign= "middle";
else if (colvalign[counter] == "ba") valign= "baseline";
else if (colvalign[counter] == "bo") valign= "bottom";
else {
fprintf(stderr,
"ERROR: Unrecognized table alignment argument %s for cvaM=X\n",
colvalign[counter].c_str());
exit(1);
}
va = " VALIGN =\"" + valign + "\"";
} else va = " ";
}
// put in special width if specified
// new code
// if dwidth has not been set, dw is blank
// if dwidth has been set, dw has that... unless
if (dwidth=="0") dw = " ";
else dw =" WIDTH=\""+ dwidth + "\"";
for (int counter = 0; counter < ncnum; counter++){
// if it is the right column, dw = cwidth property
if (cnum[counter] == currentc) dw= " WIDTH=\"" + cwidth[counter] + "\"";
}
// DT is set for all of this particular separator : reset next separator
DT = "<TD" + dw + eacolumn + va + ">";
return DT;
}
// for tables:
// find the next separator starting at nend(the end of the last .insert)
// if there is either a delim or newline
// decide which is first
// set n = to that position
// nsep is position of the next separator. changes in here.
long find_n(string &s, int nend, int &nsep)
// nsep is position of the next separator. changes in here.
{
long n;
nsep = s.find(tabledelim,nend);
long n2 = s.find('\n',nend);
long m = s.length() - 1;
if (nsep >= 0 && n2 >= 0) {
if (nsep <= n2) n = nsep;
else n = n2;
} else {
if (nsep >= 0) n = nsep;
else{
if (n2 < m) n = n2;
else n = string::npos;
}
}
return n;
}
Event Timeline
Log In to Comment