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Home » U++ Library support » U++ Core » CParser: proposal of new functions
| CParser: proposal of new functions [message #36251] |
Wed, 16 May 2012 18:40  |
omari
Messages: 276
Registered: March 2010
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Experienced Member |
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Hello ,
I have to load data in a Vector<TestCase>
the struct of the data file is:
TEST CASE:
Name of Test case: TC_0000
Test case version: 1
Author:
Date: 10/05/2012
Test type: nominal
SRD_REQUIREMENT: SRD-REQ-0628
SRD version: G02
Precondition:
...
Description:
visit LoginPage
enter userID
....
Expected Result:
...
END OF TEST CASE
to do that i use CParser and i have added a couple of function:
in CParser.h:
bool IsId2(const char *s1, const char *s2) const;
bool IsId3(const char *s1, const char *s2, const char *s3) const;
bool Id2(const char *s1, const char *s2);
bool Id3(const char *s1, const char *s2, const char *s3);
String ReadId2() throw(Error);
String ReadId3() throw(Error);
String ReadUntil(int delim);
String ReadLine() {return ReadUntil('\n');}
the function ReadUntil is based on ReadOneString()
if you find this functions useful, i would be glad if you add them to CParser..
in CParser.cpp:
bool CParser::IsId2(const char *s1, const char *s2) const
{
CParser p = *this;
if (!p.Id(s1)) return false;
return p.IsId(s2);
}
bool CParser::IsId3(const char *s1, const char *s2, const char *s3) const
{
CParser p = *this;
if (!p.Id(s1)) return false;
if (!p.Id(s2)) return false;
return p.IsId(s3);
}
bool CParser::Id2(const char *s1, const char *s2)
{
CParser p = *this;
if (!p.Id(s1)) return false;
if (!p.Id(s2)) return false;
*this = p;
return true;
}
bool CParser::Id3(const char *s1, const char *s2, const char *s3)
{
CParser p = *this;
if (!p.Id(s1)) return false;
if (!p.Id(s2)) return false;
if (!p.Id(s3)) return false;
*this = p;
return true;
}
String CParser::ReadId2() throw(Error)
{
String ret ="";
ret << ReadId();
const char* p = GetSpacePtr();
ret << String(p, term - p);
ret << ReadId();
return ret;
}
String CParser::ReadId3() throw(Error)
{
String ret ="";
ret << ReadId();
const char* p = GetSpacePtr();
ret << String(p, term - p);
ret << ReadId();
p = GetSpacePtr();
ret << String(p, term - p);
ret << ReadId();
return ret;
}
String CParser::ReadUntil(int delim)
{
StringBuffer result;
for(;;) {
if(*term == delim) {
term++;
DoSpaces();
return result;
}
else
if(*term == '\\') {
switch(*++term) {
case 'a': result.Cat('\a'); term++; break;
case 'b': result.Cat('\b'); term++; break;
case 't': result.Cat('\t'); term++; break;
case 'v': result.Cat('\v'); term++; break;
case 'n': result.Cat('\n'); term++; break;
case 'r': result.Cat('\r'); term++; break;
case 'f': result.Cat('\f'); term++; break;
case 'x': {
int hex = 0;
if(IsXDigit(*++term)) {
hex = ctoi(*term);
if(IsXDigit(*++term)) {
hex = 16 * hex + (*term >= 'A' ? ToUpper(*term) - 'A' + 10 : *term - '0');
term++;
}
}
result.Cat(hex);
break;
}
case 'u':
if(uescape) {
int hex = 0;
if(IsXDigit(*++term)) {
hex = ctoi(*term);
if(IsXDigit(*++term)) {
hex = 16 * hex + (*term >= 'A' ? ToUpper(*term) - 'A' + 10 : *term - '0');
if(IsXDigit(*++term)) {
hex = 16 * hex + (*term >= 'A' ? ToUpper(*term) - 'A' + 10 : *term - '0');
if(IsXDigit(*++term)) {
hex = 16 * hex + (*term >= 'A' ? ToUpper(*term) - 'A' + 10 : *term - '0');
term++;
}
}
}
}
result.Cat(WString(hex, 1).ToString());
}
else
result.Cat(*term++);
break;
default:
if(*term >= '0' && *term <= '7') {
int oct = *term++ - '0';
if(*term >= '0' && *term <= '7')
oct = 8 * oct + *term++ - '0';
if(*term >= '0' && *term <= '7')
oct = 8 * oct + *term++ - '0';
result.Cat(oct);
}
else
result.Cat(*term++);
break;
}
}
else {
if(*term == '\0')
return result;
result.Cat(*term++);
}
}
DoSpaces();
return result;
}
Thanks
regards
omari.
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| Re: CParser: proposal of new functions [message #36252 is a reply to message #36251] |
Wed, 16 May 2012 21:08  |
Sender Ghost
Messages: 301
Registered: November 2008
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Senior Member |
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Hello, omari.
I think, you could do the same without changing the CParser class directly:
#include <Core/Core.h>
using namespace Upp;
class OmariCParser : public CParser {
public:
bool IsId2(const char *s1, const char *s2);
bool IsId3(const char *s1, const char *s2, const char *s3);
bool Id2(const char *s1, const char *s2);
bool Id3(const char *s1, const char *s2, const char *s3);
String ReadId2() throw(Error);
String ReadId3() throw(Error);
String ReadUntil(int delim);
String ReadLine() { return ReadUntil('\n'); }
OmariCParser(const char *ptr) : CParser(ptr) { }
OmariCParser(const char *ptr, const char *fn, int line = 1) : CParser(ptr, fn, line) { }
};
bool OmariCParser::IsId2(const char *s1, const char *s2)
{
if (!Id(s1)) return false;
return IsId(s2);
}
bool OmariCParser::IsId3(const char *s1, const char *s2, const char *s3)
{
if (!Id(s1) || !Id(s2)) return false;
return IsId(s3);
}
bool OmariCParser::Id2(const char *s1, const char *s2)
{
if (!Id(s1) || !Id(s2)) return false;
return true;
}
bool OmariCParser::Id3(const char *s1, const char *s2, const char *s3)
{
if (!Id(s1) || !Id(s2) || !Id(s3)) return false;
return true;
}
String OmariCParser::ReadId2() throw(Error)
{
String ret ="";
ret << ReadId();
const char* p = GetSpacePtr();
ret << String(p, term - p);
ret << ReadId();
return ret;
}
String OmariCParser::ReadId3() throw(Error)
{
String ret ="";
ret << ReadId();
const char* p = GetSpacePtr();
ret << String(p, term - p);
ret << ReadId();
p = GetSpacePtr();
ret << String(p, term - p);
ret << ReadId();
return ret;
}
String OmariCParser::ReadUntil(int delim)
{
StringBuffer result;
for(;;) {
if(*term == delim) {
term++;
DoSpaces();
return result;
}
else
if(*term == '\\') {
switch(*++term) {
case 'a': result.Cat('\a'); term++; break;
case 'b': result.Cat('\b'); term++; break;
case 't': result.Cat('\t'); term++; break;
case 'v': result.Cat('\v'); term++; break;
case 'n': result.Cat('\n'); term++; break;
case 'r': result.Cat('\r'); term++; break;
case 'f': result.Cat('\f'); term++; break;
case 'x': {
int hex = 0;
if(IsXDigit(*++term)) {
hex = ctoi(*term);
if(IsXDigit(*++term)) {
hex = 16 * hex + (*term >= 'A' ? ToUpper(*term) - 'A' + 10 : *term - '0');
term++;
}
}
result.Cat(hex);
break;
}
case 'u':
if(uescape) {
int hex = 0;
if(IsXDigit(*++term)) {
hex = ctoi(*term);
if(IsXDigit(*++term)) {
hex = 16 * hex + (*term >= 'A' ? ToUpper(*term) - 'A' + 10 : *term - '0');
if(IsXDigit(*++term)) {
hex = 16 * hex + (*term >= 'A' ? ToUpper(*term) - 'A' + 10 : *term - '0');
if(IsXDigit(*++term)) {
hex = 16 * hex + (*term >= 'A' ? ToUpper(*term) - 'A' + 10 : *term - '0');
term++;
}
}
}
}
result.Cat(WString(hex, 1).ToString());
}
else
result.Cat(*term++);
break;
default:
if(*term >= '0' && *term <= '7') {
int oct = *term++ - '0';
if(*term >= '0' && *term <= '7')
oct = 8 * oct + *term++ - '0';
if(*term >= '0' && *term <= '7')
oct = 8 * oct + *term++ - '0';
result.Cat(oct);
}
else
result.Cat(*term++);
break;
}
}
else {
if(*term == '\0')
return result;
result.Cat(*term++);
}
}
DoSpaces();
return result;
}
CONSOLE_APP_MAIN
{
const String filePath = "TestCase.txt";
String text = LoadFile(filePath);
if (text.IsVoid()) {
SetExitCode(1);
Cerr() << "Unable to load '" << filePath << "'\n";
return;
}
OmariCParser p(text);
try {
// Parsing of text here
}
catch (OmariCParser::Error e) {
Cerr() << "ERROR: " << e << '\n';
}
}
The good example is Esc parser, based on CParser.
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| Re: CParser: proposal of new functions [message #36262 is a reply to message #36260] |
Thu, 17 May 2012 11:31 |
omari
Messages: 276
Registered: March 2010
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Experienced Member |
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Thank you all.
I post this message because i want to share this functions with others.
Here is an example of using functions Id2 () and ReadUntil ():
String name, date;
String str="request name: xxxxx \n request date: xxxxx";
CParser p(str);
if(p.Id2("request", "name"))
{
p.PassChar(':');
name=p.ReadUntil('\n');
}
else
if(p.Id2("request", "date"))
{
p.PassChar(':');
date=p.ReadUntil('\n');
}
and the function Id2() with a bit of comments:
bool CParser::Id2(const char *s1, const char *s2)
{
// get a copy of the object
CParser p = *this;
// if not found s1 or s2, return false, dont change any thing in our object
if (!p.Id(s1)) return false;
if (!p.Id(s2)) return false;
// if found s1 and s2, set the internal pointer of our object (term) to: after s2
*this = p;
return true;
}
regards
omari.
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