[clang-tools-extra] [llvm] [llvm] add support for mustache templating language (PR #105893)

[Paul Kirth via cfe-commits]

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@@ -0,0 +1,546 @@
+//===-- Mustache.cpp ------------------------------------------------------===//
+//
+// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
+// See https://llvm.org/LICENSE.txt for license information.
+// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
+//
+//===----------------------------------------------------------------------===//
+
+#include "llvm/Support/Mustache.h"
+#include "llvm/Support/Error.h"
+#include <sstream>
+
+using namespace llvm;
+using namespace llvm::json;
+using namespace llvm::mustache;
+
+SmallString<0> escapeString(StringRef Input,
+                            DenseMap<char, StringRef> &Escape) {
+
+  SmallString<0> Output;
+  for (char C : Input) {
+    if (Escape.find(C) != Escape.end())
+      Output += Escape[C];
+    else
+      Output += C;
+  }
+  return Output;
+}
+
+Accessor split(StringRef Str, char Delimiter) {
+  Accessor Tokens;
+  if (Str == ".") {
+    Tokens.emplace_back(Str);
+    return Tokens;
+  }
+  StringRef Ref(Str);
+  while (!Ref.empty()) {
+    StringRef Part;
+    std::tie(Part, Ref) = Ref.split(Delimiter);
+    Tokens.emplace_back(Part.trim());
+  }
+  return Tokens;
+}
+
+void addIndentation(llvm::SmallString<0> &PartialStr, size_t IndentationSize) {
+  std::string Indent(IndentationSize, ' ');
+  llvm::SmallString<0> Result;
+  for (size_t I = 0; I < PartialStr.size(); ++I) {
+    Result.push_back(PartialStr[I]);
+    if (PartialStr[I] == '\n' && I < PartialStr.size() - 1)
+      Result.append(Indent);
+  }
+  PartialStr = Result;
+}
+
+Token::Token(StringRef RawBody, StringRef InnerBody, char Identifier)
+    : RawBody(RawBody), TokenBody(InnerBody), Indentation(0) {
+  TokenType = getTokenType(Identifier);
+  if (TokenType == Type::Comment)
+    return;
+
+  StringRef AccessorStr =
+      TokenType == Type::Variable ? InnerBody : InnerBody.substr(1);
+
+  Accessor = split(AccessorStr.trim(), '.');
+}
+
+Token::Token(StringRef Str)
+    : TokenType(Type::Text), RawBody(Str), Accessor({}), TokenBody(Str),
+      Indentation(0) {}
+
+Token::Type Token::getTokenType(char Identifier) {
+  switch (Identifier) {
+  case '#':
+    return Type::SectionOpen;
+  case '/':
+    return Type::SectionClose;
+  case '^':
+    return Type::InvertSectionOpen;
+  case '!':
+    return Type::Comment;
+  case '>':
+    return Type::Partial;
+  case '&':
+    return Type::UnescapeVariable;
+  default:
+    return Type::Variable;
+  }
+}
+
+// Function to check if there's no meaningful text behind
+bool noTextBehind(size_t Idx, const SmallVector<Token, 0> &Tokens) {
+  if (Idx == 0 || Tokens[Idx - 1].getType() != Token::Type::Text)
+    return false;
+  const Token &PrevToken = Tokens[Idx - 1];
+  StringRef TokenBody = PrevToken.getRawBody().rtrim(" \t\v\t");
+  // We make a special exception for when previous token is empty 
+  // and the current token is the second token 
+  // ex.
+  //  " {{#section}}A{{/section}}"
+  // that's why we check if the token body is empty and the index is 1
+  return TokenBody.ends_with("\n") || (TokenBody.empty() && Idx == 1);
+}
+
+// Function to check if there's no meaningful text ahead
+bool noTextAhead(size_t Idx, const SmallVector<Token, 0> &Tokens) {
+  if (Idx >= Tokens.size() - 1 ||
+      Tokens[Idx + 1].getType() != Token::Type::Text)
+    return false;
+
+  const Token &NextToken = Tokens[Idx + 1];
+  StringRef TokenBody = NextToken.getRawBody().ltrim(" ");
+  return TokenBody.starts_with("\r\n") || TokenBody.starts_with("\n");
+}
+
+bool requiresCleanUp(Token::Type T) {
+  // We must clean up all the tokens that could contain child nodes
+  return T == Token::Type::SectionOpen || T == Token::Type::InvertSectionOpen ||
+         T == Token::Type::SectionClose || T == Token::Type::Comment ||
+         T == Token::Type::Partial;
+}
+
+// Simple tokenizer that splits the template into tokens
+// the mustache spec allows {{{ }}} to unescape variables
+// but we don't support that here unescape variable
+// is represented only by {{& variable}}
+SmallVector<Token, 0> tokenize(StringRef Template) {
+  SmallVector<Token, 0> Tokens;
+  StringRef Open("{{");
+  StringRef Close("}}");
+  size_t Start = 0;
+  size_t DelimiterStart = Template.find(Open);
+  if (DelimiterStart == StringRef::npos) {
+    Tokens.emplace_back(Template);
+    return Tokens;
+  }
+  while (DelimiterStart != StringRef::npos) {
+    if (DelimiterStart != Start) {
+      Tokens.emplace_back(Template.substr(Start, DelimiterStart - Start));
+    }
+
+    size_t DelimiterEnd = Template.find(Close, DelimiterStart);
+    if (DelimiterEnd == StringRef::npos) {
+      break;
+    }
+
+    // Extract the Interpolated variable without {{ and }}
+    size_t InterpolatedStart = DelimiterStart + Open.size();
+    size_t InterpolatedEnd = DelimiterEnd - DelimiterStart - Close.size();
+    SmallString<0> Interpolated =
+        Template.substr(InterpolatedStart, InterpolatedEnd);
+    SmallString<0> RawBody({Open, Interpolated, Close});
+    Tokens.emplace_back(RawBody, Interpolated, Interpolated[0]);
+    Start = DelimiterEnd + Close.size();
+    DelimiterStart = Template.find(Open, Start);
+  }
+
+  if (Start < Template.size())
+    Tokens.emplace_back(Template.substr(Start));
+
+  // Fix up white spaces for:
+  //  open sections/inverted sections/close section/comment
+  // This loop attempts to find standalone tokens and tries to trim out
+  // the surrounding whitespace.
+  // For example:
+  // if you have the template string
+  //  "Line 1\n {{#section}} \n Line 2 \n {{/section}} \n Line 3"
+  // The output would be
+  //  "Line 1\n Line 2\n Line 3"
+  size_t LastIdx = Tokens.size() - 1;
+  for (size_t Idx = 0, End = Tokens.size(); Idx < End; ++Idx) {
+    Token &CurrentToken = Tokens[Idx];
+    Token::Type CurrentType = CurrentToken.getType();
+    // Check if token type requires cleanup
+    bool RequiresCleanUp = requiresCleanUp(CurrentType);
+
+    if (!RequiresCleanUp)
+      continue;
+
+    // We adjust the token body if there's no text behind or ahead a token is
+    // considered surrounded by no text if the right of the previous token
+    // is a newline followed by spaces or if the left of the next token
+    // is spaces followed by a newline
+    // eg.
+    //  "Line 1\n {{#section}} \n Line 2 \n {{/section}} \n Line 3"
+
+    bool NoTextBehind = noTextBehind(Idx, Tokens);
+    bool NoTextAhead = noTextAhead(Idx, Tokens);
+
+    // Adjust next token body if there is no text ahead
+    // eg.
+    //  The template string
+    //  "{{! Comment }} \nLine 2"
+    // would be considered as no text ahead and should be render as
+    //  " Line 2"
+    if ((NoTextBehind && NoTextAhead) || (NoTextAhead && Idx == 0)) {
+      Token &NextToken = Tokens[Idx + 1];
+      StringRef NextTokenBody = NextToken.getTokenBody();
+      // cut off the leading newline which could be \n or \r\n
+      if (NextTokenBody.starts_with("\r\n"))
+        NextToken.setTokenBody(NextTokenBody.substr(2));
+      else if (NextTokenBody.starts_with("\n"))
+        NextToken.setTokenBody(NextTokenBody.substr(1));
+    }
+    // Adjust previous token body if there no text behind
+    // eg.
+    //  The template string
+    //  " \t{{#section}}A{{/section}}"
+    // would be considered as no text ahead and should be render as
+    //  "A"
+    // The exception for this is partial tag which requires us to
+    // keep track of the indentation once it's rendered
+    if (((NoTextBehind && NoTextAhead) || (NoTextBehind && Idx == LastIdx))) {
+      Token &PrevToken = Tokens[Idx - 1];
+      StringRef PrevTokenBody = PrevToken.getTokenBody();
+      StringRef Unindented = PrevTokenBody.rtrim(" \t\v");
+      size_t Indentation = PrevTokenBody.size() - Unindented.size();
+      if (CurrentType != Token::Type::Partial)
+        PrevToken.setTokenBody(Unindented);
+      CurrentToken.setIndentation(Indentation);
+    }
+  }
+  return Tokens;
+}
+
+class Parser {
+public:
+  Parser(StringRef TemplateStr, BumpPtrAllocator &Allocator)
+      : Allocator(Allocator), TemplateStr(TemplateStr) {}
+
+  ASTNode *parse();
+
+private:
+  void parseMustache(ASTNode *Parent);
+
+  BumpPtrAllocator &Allocator;
+  SmallVector<Token, 0> Tokens;
+  size_t CurrentPtr;
+  StringRef TemplateStr;
+};
+
+ASTNode *Parser::parse() {
+  Tokens = tokenize(TemplateStr);
+  CurrentPtr = 0;
+  void *Root = Allocator.Allocate(sizeof(ASTNode), alignof(ASTNode));
+  ASTNode *RootNode = new (Root) ASTNode();
+  parseMustache(RootNode);
+  return RootNode;
+}
+
+void Parser::parseMustache(ASTNode *Parent) {
+
+  while (CurrentPtr < Tokens.size()) {
+    Token CurrentToken = Tokens[CurrentPtr];
+    CurrentPtr++;
+    Accessor A = CurrentToken.getAccessor();
+    ASTNode *CurrentNode;
+    void *Node = Allocator.Allocate(sizeof(ASTNode), alignof(ASTNode));
+
+    switch (CurrentToken.getType()) {
+    case Token::Type::Text: {
+      CurrentNode = new (Node) ASTNode(CurrentToken.getTokenBody(), Parent);
+      Parent->addChild(CurrentNode);
----------------
ilovepi wrote:

Avoiding default is typically better, since you get a diagnostic. Using an scoped enum/enum class may also help. 

https://github.com/llvm/llvm-project/pull/105893