tools/gn/file_template.cc - third_party/gn - Git at Google

 // Copyright (c) 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "tools/gn/file_template.h"

 #include "tools/gn/filesystem_utils.h"

 const char FileTemplate::kSource[] = "{{source}}";
 const char FileTemplate::kSourceNamePart[] = "{{source_name_part}}";

 FileTemplate::FileTemplate(const Value& t, Err* err) {
   ParseInput(t, err);
 }

 FileTemplate::FileTemplate(const std::vector<std::string>& t) {
   for (size_t i = 0; i < t.size(); i++)
     ParseOneTemplateString(t[i]);
 }

 FileTemplate::~FileTemplate() {
 }

 void FileTemplate::Apply(const Value& sources,
                          const ParseNode* origin,
                          std::vector<Value>* dest,
                          Err* err) const {
   if (!sources.VerifyTypeIs(Value::LIST, err))
     return;
   dest->reserve(sources.list_value().size() * templates_.container().size());

   // Temporary holding place, allocate outside to re-use- buffer.
   std::vector<std::string> string_output;

   const std::vector<Value>& sources_list = sources.list_value();
   for (size_t i = 0; i < sources_list.size(); i++) {
     if (!sources_list[i].VerifyTypeIs(Value::STRING, err))
       return;

     ApplyString(sources_list[i].string_value(), &string_output);
     for (size_t out_i = 0; out_i < string_output.size(); out_i++)
       dest->push_back(Value(origin, string_output[i]));
   }
 }

 void FileTemplate::ApplyString(const std::string& str,
                                std::vector<std::string>* output) const {
   // Compute all substitutions needed so we can just do substitutions below.
   // We skip the LITERAL one since that varies each time.
   std::string subst[Subrange::NUM_TYPES];
   if (types_required_[Subrange::SOURCE])
     subst[Subrange::SOURCE] = str;
   if (types_required_[Subrange::NAME_PART])
     subst[Subrange::NAME_PART] = FindFilenameNoExtension(&str).as_string();

   output->resize(templates_.container().size());
   for (size_t template_i = 0;
        template_i < templates_.container().size(); template_i++) {
     const Template& t = templates_[template_i];
     (*output)[template_i].clear();
     for (size_t subrange_i = 0; subrange_i < t.container().size();
          subrange_i++) {
       if (t[subrange_i].type == Subrange::LITERAL)
         (*output)[template_i].append(t[subrange_i].literal);
       else
         (*output)[template_i].append(subst[t[subrange_i].type]);
     }
   }
 }

 void FileTemplate::ParseInput(const Value& value, Err* err) {
   switch (value.type()) {
     case Value::STRING:
       ParseOneTemplateString(value.string_value());
       break;
     case Value::LIST:
       for (size_t i = 0; i < value.list_value().size(); i++) {
         if (!value.list_value()[i].VerifyTypeIs(Value::STRING, err))
           return;
         ParseOneTemplateString(value.list_value()[i].string_value());
       }
       break;
     default:
       *err = Err(value, "File template must be a string or list.",
                  "A sarcastic comment about your skills goes here.");
   }
 }

 void FileTemplate::ParseOneTemplateString(const std::string& str) {
   templates_.container().resize(templates_.container().size() + 1);
   Template& t = templates_[templates_.container().size() - 1];

   size_t cur = 0;
   while (true) {
     size_t next = str.find("{{", cur);

     // Pick up everything from the previous spot to here as a literal.
     if (next == std::string::npos) {
       if (cur != str.size())
         t.container().push_back(Subrange(Subrange::LITERAL, str.substr(cur)));
       break;
     } else if (next > cur) {
       t.container().push_back(
           Subrange(Subrange::LITERAL, str.substr(cur, next - cur)));
     }

     // Decode the template param.
     if (str.compare(next, arraysize(kSource) - 1, kSource) == 0) {
       t.container().push_back(Subrange(Subrange::SOURCE));
       types_required_[Subrange::SOURCE] = true;
       cur = next + arraysize(kSource) - 1;
     } else if (str.compare(next, arraysize(kSourceNamePart) - 1,
                            kSourceNamePart) == 0) {
       t.container().push_back(Subrange(Subrange::NAME_PART));
       types_required_[Subrange::NAME_PART] = true;
       cur = next + arraysize(kSourceNamePart) - 1;
     } else {
       // If it's not a match, treat it like a one-char literal (this will be
       // rare, so it's not worth the bother to add to the previous literal) so
       // we can keep going.
       t.container().push_back(Subrange(Subrange::LITERAL, "{"));
       cur = next + 1;
     }
   }
 }
	// Copyright (c) 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "tools/gn/file_template.h"

	#include "tools/gn/filesystem_utils.h"

	const char FileTemplate::kSource[] = "{{source}}";
	const char FileTemplate::kSourceNamePart[] = "{{source_name_part}}";

	FileTemplate::FileTemplate(const Value& t, Err* err) {
	ParseInput(t, err);
	}

	FileTemplate::FileTemplate(const std::vector<std::string>& t) {
	for (size_t i = 0; i < t.size(); i++)
	ParseOneTemplateString(t[i]);
	}

	FileTemplate::~FileTemplate() {
	}

	void FileTemplate::Apply(const Value& sources,
	const ParseNode* origin,
	std::vector<Value>* dest,
	Err* err) const {
	if (!sources.VerifyTypeIs(Value::LIST, err))
	return;
	dest->reserve(sources.list_value().size() * templates_.container().size());

	// Temporary holding place, allocate outside to re-use- buffer.
	std::vector<std::string> string_output;

	const std::vector<Value>& sources_list = sources.list_value();
	for (size_t i = 0; i < sources_list.size(); i++) {
	if (!sources_list[i].VerifyTypeIs(Value::STRING, err))
	return;

	ApplyString(sources_list[i].string_value(), &string_output);
	for (size_t out_i = 0; out_i < string_output.size(); out_i++)
	dest->push_back(Value(origin, string_output[i]));
	}
	}

	void FileTemplate::ApplyString(const std::string& str,
	std::vector<std::string>* output) const {
	// Compute all substitutions needed so we can just do substitutions below.
	// We skip the LITERAL one since that varies each time.
	std::string subst[Subrange::NUM_TYPES];
	if (types_required_[Subrange::SOURCE])
	subst[Subrange::SOURCE] = str;
	if (types_required_[Subrange::NAME_PART])
	subst[Subrange::NAME_PART] = FindFilenameNoExtension(&str).as_string();

	output->resize(templates_.container().size());
	for (size_t template_i = 0;
	template_i < templates_.container().size(); template_i++) {
	const Template& t = templates_[template_i];
	(*output)[template_i].clear();
	for (size_t subrange_i = 0; subrange_i < t.container().size();
	subrange_i++) {
	if (t[subrange_i].type == Subrange::LITERAL)
	(*output)[template_i].append(t[subrange_i].literal);
	else
	(*output)[template_i].append(subst[t[subrange_i].type]);
	}
	}
	}

	void FileTemplate::ParseInput(const Value& value, Err* err) {
	switch (value.type()) {
	case Value::STRING:
	ParseOneTemplateString(value.string_value());
	break;
	case Value::LIST:
	for (size_t i = 0; i < value.list_value().size(); i++) {
	if (!value.list_value()[i].VerifyTypeIs(Value::STRING, err))
	return;
	ParseOneTemplateString(value.list_value()[i].string_value());
	}
	break;
	default:
	*err = Err(value, "File template must be a string or list.",
	"A sarcastic comment about your skills goes here.");
	}
	}

	void FileTemplate::ParseOneTemplateString(const std::string& str) {
	templates_.container().resize(templates_.container().size() + 1);
	Template& t = templates_[templates_.container().size() - 1];

	size_t cur = 0;
	while (true) {
	size_t next = str.find("{{", cur);

	// Pick up everything from the previous spot to here as a literal.
	if (next == std::string::npos) {
	if (cur != str.size())
	t.container().push_back(Subrange(Subrange::LITERAL, str.substr(cur)));
	break;
	} else if (next > cur) {
	t.container().push_back(
	Subrange(Subrange::LITERAL, str.substr(cur, next - cur)));
	}

	// Decode the template param.
	if (str.compare(next, arraysize(kSource) - 1, kSource) == 0) {
	t.container().push_back(Subrange(Subrange::SOURCE));
	types_required_[Subrange::SOURCE] = true;
	cur = next + arraysize(kSource) - 1;
	} else if (str.compare(next, arraysize(kSourceNamePart) - 1,
	kSourceNamePart) == 0) {
	t.container().push_back(Subrange(Subrange::NAME_PART));
	types_required_[Subrange::NAME_PART] = true;
	cur = next + arraysize(kSourceNamePart) - 1;
	} else {
	// If it's not a match, treat it like a one-char literal (this will be
	// rare, so it's not worth the bother to add to the previous literal) so
	// we can keep going.
	t.container().push_back(Subrange(Subrange::LITERAL, "{"));
	cur = next + 1;
	}
	}
	}