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/*=========================================================================
Program: Insight Segmentation & Registration Toolkit
Module: $RCSfile$
Language: C++
Date: $Date$
Version: $Revision$
Copyright (c) 2000 National Library of Medicine
All rights reserved.
See COPYRIGHT.txt for copyright details.
=========================================================================*/
#include "cmCableDefineSetCommand.h"
#include "cmCacheManager.h"
#include "cmRegularExpression.h"
// cmCableDefineSetCommand
bool cmCableDefineSetCommand::Invoke(std::vector<std::string>& args)
{
if(args.size() < 2)
{
this->SetError("called with incorrect number of arguments");
return false;
}
// This command needs access to the Cable data.
this->SetupCableData();
std::vector<std::string>::const_iterator arg = args.begin();
// The first argument is the name of the set.
m_SetName = *arg++;
// All arguments until a "SOURCE_FILES" are the elements to be placed in
// the set.
for(; (arg != args.end()) && (*arg != "SOURCE_FILES"); ++arg)
{
// If the element cannot be added, return an error.
// This can occur when a tag is not specified and can't be generated.
if(!this->AddElement(*arg))
{ return false; }
}
// If we are not at the end, the "SOURCE_FILES" keyword has been
// encountered.
if(arg != args.end())
{
// The rest of the arguments are source files to be included in
// any package which references the set.
for(++arg; arg != args.end(); ++arg)
{
if(!this->AddSourceFile(*arg))
{ return false; }
}
}
// Write this command's configuration output.
this->WriteConfiguration();
return true;
}
/**
* Write the CABLE configuration code to define this Set.
*/
void cmCableDefineSetCommand::WriteConfiguration() const
{
cmRegularExpression needCdataBlock("[&<>]");
// Get the ouptut information from the cmCableData.
std::ostream& os = m_CableData->GetOutputStream();
cmCableData::Indentation indent = m_CableData->GetIndentation();
// Output the code.
os << indent << "<Set name=\"" << m_SetName.c_str() << "\">" << std::endl;
for(std::vector<std::string>::const_iterator e = m_SourceHeaders.begin();
e != m_SourceHeaders.end(); ++e)
{
os << indent << " <File name=\"" << e->c_str() << "\"/>" << std::endl;
}
for(std::vector<std::string>::const_iterator e = m_InstantiationSources.begin();
e != m_InstantiationSources.end(); ++e)
{
os << indent << " <File name=\"" << e->c_str()
<< "\" purpose=\"instantiate\"/>" << std::endl;
}
for(Elements::const_iterator e = m_Elements.begin();
e != m_Elements.end(); ++e)
{
os << indent << " <Element";
// Only output the tag if it is not the empty string.
if(e->first.length() > 0)
{
os << " tag=\"" << e->first.c_str() << "\"";
}
os << ">";
if(needCdataBlock.find(e->second.c_str()))
{
os << "<![CDATA[" << e->second.c_str() << "]]>";
}
else
{
os << e->second.c_str();
}
os << "</Element>" << std::endl;
}
os << indent << "</Set>" << std::endl;
}
/**
* Add an element to the set. The given string is the argument to the
* command describing the element. There are two formats allowed:
* "code" = The code describing the element to CABLE is simply given.
* The GenerateTag() method will guess at a good tag for the
* code.
* "tag:code" = The left side of a single colon is text describing the tag.
* GenerateTag() will not be called.
*/
bool cmCableDefineSetCommand::AddElement(const std::string& arg)
{
// A regular expression to match the tagged element specification.
cmRegularExpression tagGiven("^([A-Za-z_0-9]*)[ \t]*:[ \t]*([^:].*|::.*)$");
std::string tag;
std::string code;
if(tagGiven.find(arg.c_str()))
{
// A tag was given. Use it.
tag = tagGiven.match(1);
code = tagGiven.match(2);
}
else
{
// No tag was given. Try to generate one.
if(!this->GenerateTag(arg, tag))
{ return false; }
code = arg;
}
// Add an element with the given tag and code.
m_Elements.push_back(Element(tag, code));
return true;
}
/**
* Given the string representing a set element, automatically generate
* the CABLE element tag for it.
*
* **This function determines how the output language of all
* CABLE-generated wrappers will look!**
*/
bool
cmCableDefineSetCommand::GenerateTag(const std::string& element,
std::string& tag)
{
// Hold the regular expressions for matching against the element.
cmRegularExpression regex;
// If the element's code begins in a $, it is referring to a set name.
// The set's elements have their own tags, so we don't need one.
regex.compile("^[ \t]*\\$");
if(regex.find(element))
{ tag = ""; return true; }
// Test for simple integer
regex.compile("^[ \t]*([0-9]*)[ \t]*$");
if(regex.find(element))
{
tag = "_";
tag.append(regex.match(1));
return true;
}
// Test for basic integer type
regex.compile("^[ \t]*(unsigned[ ]|signed[ ])?[ \t]*(char|short|int|long|long[ ]long)[ \t]*$");
if(regex.find(element))
{
tag = "_";
if(regex.match(1) == "unsigned ")
{ tag.append("u"); }
if(regex.match(2) == "long long")
{ tag.append("llong"); }
else
{ tag.append(regex.match(2)); }
return true;
}
// Test for basic floating-point type
regex.compile("^[ \t]*(long[ ])?[ \t]*(float|double)[ \t]*$");
if(regex.find(element))
{
tag = "_";
if(regex.match(1) == "long ")
tag.append("l");
tag.append(regex.match(2));
return true;
}
// Test for basic wide-character type
regex.compile("^[ \t]*(wchar_t)[ \t]*$");
if(regex.find(element))
{
tag = "_wchar";
return true;
}
// Test for plain type name (without template arguments).
regex.compile("^[ \t]*([A-Za-z_][A-Za-z0-9_]*)[ \t]*$");
if(regex.find(element))
{
// The tag is the same as the type.
tag = regex.match(1);
return true;
}
// Test for template class instance.
regex.compile("^[ \t]*([A-Za-z_][A-Za-z0-9_]*)<.*[ \t]*$");
if(regex.find(element))
{
// The tag is the type without arguments (the arguments may have
// their own tags).
tag = regex.match(1);
return true;
}
// We can't generate a tag.
std::string err =
("doesn't know how to generate tag for element \""+element+"\" in set \""
+m_SetName+"\"\nPlease specify one with the \"tag:element\" syntax.");
this->SetError(err.c_str());
tag = "";
return false;
}
/**
* Add a source file associated with this set. Any package referencing
* this set will automatically include this source file.
*/
bool cmCableDefineSetCommand::AddSourceFile(const std::string& file)
{
// We must locate the file in the include path so that we can detect
// its extension, and whether there is more than one to find.
std::string header = file+".h";
std::string txx = file+".txx";
m_Makefile->ExpandVariablesInString(header);
m_Makefile->ExpandVariablesInString(txx);
// See if the file just exists here. The compiler's search path will
// locate it.
if(cmSystemTools::FileExists(header.c_str()))
{
m_SourceHeaders.push_back(header);
// See if there is a matching .txx as well.
if(cmSystemTools::FileExists(txx.c_str()))
{
m_InstantiationSources.push_back(txx);
}
return true;
}
// We must look for the file in the include search path.
const std::vector<std::string>& includeDirectories =
m_Makefile->GetIncludeDirectories();
for(std::vector<std::string>::const_iterator dir = includeDirectories.begin();
dir != includeDirectories.end(); ++dir)
{
std::string path = *dir + "/";
m_Makefile->ExpandVariablesInString(path);
if(cmSystemTools::FileExists((path+header).c_str()))
{
m_SourceHeaders.push_back(header);
// See if there is a matching .txx as well.
if(cmSystemTools::FileExists((path+txx).c_str()))
{
m_InstantiationSources.push_back(txx);
}
return true;
}
}
// We couldn't locate the source file. Report the error.
std::string err = "couldn't find source file " + header;
this->SetError(err.c_str());
return false;
}
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