Rename files

core_lexing.cpp

@@ -0,0 +1,685 @@
+force_inline B32 token_is_assign(Token_Kind token){return token >= TK_FirstAssign && token <= TK_LastAssign;}
+force_inline B32 token_is_assign(Token *token){return token_is_assign(token->kind);}
+force_inline B32 token_is_compare(Token_Kind token){return token >= TK_FirstCompare && token <= TK_LastCompare;}
+force_inline B32 token_is_compare(Token *token){return token_is_compare(token->kind);}
+global Token token_null = {SAME_SCOPE};
+
+function U8
+lexc(Lex_Stream *s){
+  return s->stream.str[s->iter];
+}
+
+function U8
+lexci(Lex_Stream *s, S32 i){
+  return s->stream.str[s->iter+i];
+}
+
+function U8 *
+lexcp(Lex_Stream *s){
+  return s->stream.str + s->iter;
+}
+
+function B32
+lex_is_whitespace(U8 c){
+  B32 result = c == ' ' || c == '\r';
+  return result;
+}
+
+function B32
+lex_is_alphabetic(U8 c){
+  B32 result = (c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z');
+  return result;
+}
+
+function B32
+lex_is_numeric(U8 c){
+  B32 result = c >= '0' && c <= '9';
+  return result;
+}
+
+function B32
+lex_is_numeric_base16(U8 c){
+  B32 result = (c >= '0' && c <= '9') || (c >= 'A' && c <= 'F') ||
+               (c >= 'a' && c <= 'f');
+  return result;
+}
+
+function B32
+lex_is_alphanumeric(U8 c){
+  B32 result = lex_is_numeric(c) || lex_is_alphabetic(c);
+  return result;
+}
+
+function void
+lex_set_len(Lex_Stream *s, Token *token){
+  assert(lexcp(s) >= token->str);
+  token->len = lexcp(s) - token->str;
+}
+
+function void
+lex_set_keywords(Lexer *lexer, Array<String> keywords){
+  Intern_String keyword = {};
+  For(keywords){
+    keyword = intern_string(&lexer->interns, it);
+    if(&it == keywords.begin())
+      lexer->interns.first_keyword = keyword.str;
+  }
+  lexer->interns.last_keyword = keyword.str;
+}
+
+function B32
+lex_is_keyword(Intern_Table *lexer, Intern_String keyword){
+  B32 result = keyword.str >= lexer->first_keyword && keyword.str <= lexer->last_keyword;
+  return result;
+}
+
+function void
+token_error(Token *t, String error_val){
+  t->kind = TK_Error;
+  t->error_val = error_val;
+}
+
+function void
+lex_parse_u64(Lexer *lexer, Token *t, S64 base){
+  Scratch scratch;
+  Set_BigInt_Allocator(scratch);
+
+  t->kind = TK_Integer;
+  BigInt m = bigint_u64(1);
+  BigInt base_mul = bigint_u64(base);
+  BigInt result = bigint_u64(0);
+
+  for(S64 i = t->len - 1; i >= 0; --i){
+    U64 value = t->str[i];
+    if(t->str[i] >= 'a') value = value - 'a' + 10;
+    else if(t->str[i] >= 'A') value = value - 'A' + 10;
+    else value -= '0';
+
+    BigInt val = bigint_u64(value);
+    BigInt new_val = bigint_mul(&val, &m);
+    result = bigint_add(&result, &new_val);
+    m = bigint_mul(&m, &base_mul);
+  }
+
+  t->int_val = bigint_copy(lexer->arena, &result);
+}
+
+function void
+lex_parse_f64(Token *t){
+  t->kind = TK_Float;
+  char buffer[128];
+  S64 len = clamp_top((int)t->len, 126);
+  memory_copy(buffer, t->str, len);
+  buffer[len] = 0;
+  t->f64_val = strtod(buffer, 0);
+}
+
+function void
+lex_advance(Lex_Stream *s){
+  if(s->iter >= s->stream.len){
+    return;
+  }
+  else if(lexc(s) == '\n'){
+    s->iter++;
+    s->line++;
+    s->line_begin = lexcp(s);
+  }
+  else{
+    s->iter++;
+  }
+}
+
+function void
+lex_parse_string(Lex_Stream *s, Token *t, U8 c){
+  for(;;){
+    if(lexc(s) == '\\') lex_advance(s);
+    else if(lexc(s) == c) break;
+    else if(lexc(s) == 0){
+      token_error(t, "Unterminated string, reached end of file"_s);
+      break;
+    }
+    lex_advance(s);
+  }
+  if(t->kind != TK_Error){
+    lex_advance(s);
+    lex_set_len(s,t);
+  }
+}
+
+function void
+lex_parse_ident(Intern_Table *table, Lex_Stream *s, Token *t){
+  while(lex_is_alphanumeric(lexc(s)) || lexc(s) == '_')
+    lex_advance(s);
+  lex_set_len(s,t);
+}
+
+#define CASE2(op, OpName, Assign)                                                        \
+  case op:                                                                               \
+    if (lexc(s) == '=') {                                                                \
+      lex_advance(s);                                                                    \
+      t.kind = Assign;                                                                   \
+    } else {                                                                             \
+      t.kind = OpName;                                                                   \
+    }                                                                                    \
+    break
+#define CASE3(op, OpName, Assign, Incr)                                                  \
+  case op:                                                                               \
+    if (lexc(s) == '=') {                                                                \
+      lex_advance(s);                                                                    \
+      t.kind = Assign;                                                                   \
+    } else if (lexc(s) == op) {                                                          \
+      lex_advance(s);                                                                    \
+      t.kind = Incr;                                                                     \
+    } else {                                                                             \
+      t.kind = OpName;                                                                   \
+    }                                                                                    \
+    break
+
+function Token
+token_make(Lexer *lexer, U8 *str, Intern_String file, int line, U8 *line_begin){
+  Token t = {};
+  t.str   = str;
+  t.file  = file;
+  t.line  = line;
+  t.line_begin = line_begin;
+  t.di    = lexer->token_debug_ids++;
+  return t;
+}
+
+function Token
+token_make(Lexer *lexer){
+  return token_make(lexer, lexcp(&lexer->stream), lexer->stream.file, lexer->stream.line, lexer->stream.line_begin);
+}
+
+function Token *
+lex_last_indent_token(Lex_Stream *s){
+  if(s->indent_stack.len > 0){
+    return *s->indent_stack.last();
+  }
+  return &token_null;
+}
+
+function B32
+lex_is_scope(Token *t){
+  B32 result = t->kind == OPEN_SCOPE || t->kind == CLOSE_SCOPE || t->kind == SAME_SCOPE;
+  return result;
+}
+
+function void
+lex_unwind_indent_stack(Token *t, Lex_Stream *s, Array<Token> *array){
+  for(S64 i = s->indent_stack.len-1; i >= 0; i-=1){
+    auto it = s->indent_stack.data[i];
+    assert(lex_is_scope(it));
+    if(it->indent == t->indent){
+      t->kind = SAME_SCOPE;
+      array->add(*t);
+      break;
+    }
+    else if(it->indent < t->indent){
+      token_error(t, "Bad indentation"_s);
+      array->add(*t);
+      break;
+    }
+    else{
+      s->indent_stack.pop();
+      t->kind = CLOSE_SCOPE;
+      array->add(*t);
+    }
+  }
+}
+
+function void
+lex__stream(Lexer *lexer){
+  Intern_Table *table = &lexer->interns;
+  Array<Token> *array = &lexer->tokens;
+  Lex_Stream *s       = &lexer->stream;
+
+  B32 beginning = true;
+  for(;;){
+    if(lexc(s) == 0 || s->iter >= s->stream.len){
+      end_of_stream:
+      Token t = token_make(lexer);
+      lex_unwind_indent_stack(&t, s, array);
+      break;
+    }
+
+    // @note: the lexer is going to be a 2 stage process
+    // first we tokenize the indentation and then proceed to tokenize
+    // the good stuff
+
+    // for blocks of stmts we parse till we cant find another new line
+    // of same scope.
+    // parse_decl doesn't require preceding new line
+    //
+    // in that way new lines act as commas in function params
+    // seeing a comma means that there is a next thing to parse
+    // and it's easy to parse stuff using a do while loop
+
+    // @note: first handle indentation
+    // mostly we want to merge multiple new lines
+    // but for down scopes we want to emit 2 new lines
+    // that will ease out parsing, one token to break out
+    // from a block parsing, second to allow continuation of surrounding scope
+    Token t = token_make(lexer);
+    B32 should_emit = beginning;
+    for(;;){
+      switch(lexc(s)){
+        case   0 : goto end_of_stream; break;
+        case '\t': case ' ': lex_advance(s); t.indent++;                        break;
+        case '\r':           lex_advance(s);                                    break;
+        case '/': {
+          if(lexci(s,1) == '/'){
+            lex_advance(s); lex_advance(s);
+            t.kind = TK_Comment;
+            for(;;){
+              if(lexc(s) == '\n' || lexc(s) == 0) break;
+              lex_advance(s);
+            }
+          }
+          else if(lexci(s,1) == '*'){
+            lex_advance(s); lex_advance(s);
+            t.kind = TK_Comment;
+            for(;;){
+              if(lexc(s) == '*' && lexci(s,1) == '/'){
+                lex_advance(s); lex_advance(s);
+                break;
+              }
+              else if(lexc(s) == 0){
+                token_error(&t, "Unterminated block comment"_s);
+                break;
+              }
+              lex_advance(s);
+            }
+          }
+          else goto indent_loop_break;
+        } break;
+
+        // @todo: add [;;] operator which adds new scope
+        // @todo: also need some way to detect indentation so that
+        // first of all we can check for consistency and second of
+        // all because we would know by how much to indent
+        // @todo: after detecting indentation 2 spaces would become 1 indent value
+        case ';' : {
+          Token semi  = token_make(lexer);
+          Token *last = lex_last_indent_token(s);
+          semi.indent = last->indent;
+          lex_advance(s);
+          if(lexc(s) == ';'){
+            lex_advance(s);
+            semi.kind = OPEN_SCOPE;
+            semi.indent = last->indent + 2; // @todo: proper detection of indentation
+            array->add(semi);
+            s->indent_stack.add(array->last());
+          } else{
+            semi.kind   = SAME_SCOPE;
+            array->add(semi);
+          }
+        } break;
+
+        case '\n':{
+          lex_advance(s);
+          should_emit = true;
+          t = token_make(lexer);
+        } break;
+
+        default:{
+          if(s->inside_brace_paren) should_emit = false;
+          if(should_emit){
+            Token *last = lex_last_indent_token(s);
+            if(t.indent > last->indent){
+              t.kind = OPEN_SCOPE;
+              array->add(t);
+              s->indent_stack.add(array->last());
+            }
+
+            else if(t.indent < last->indent){
+              lex_unwind_indent_stack(&t, s, array);
+            }
+            else {
+              t.kind = SAME_SCOPE;
+              array->add(t);
+            }
+          }
+
+          goto indent_loop_break;
+        }
+      }
+    } indent_loop_break:
+    beginning = false;
+
+    // @note: handle the indented token
+    t = token_make(lexer);
+    lex_advance(s);
+    switch(*t.str){
+      case  0 : goto end_of_stream; break;
+      case '@': t.kind = TK_At; break;
+      case '(': s->inside_brace_paren++; t.kind = TK_OpenParen; break;
+      case ')': s->inside_brace_paren--; t.kind = TK_CloseParen; break;
+      case '{': s->inside_brace_paren++; t.kind = TK_OpenBrace; break;
+      case '}': s->inside_brace_paren--; t.kind = TK_CloseBrace; break;
+      case '[': s->inside_brace_paren++; t.kind = TK_OpenBracket; break;
+      case ']': s->inside_brace_paren--; t.kind = TK_CloseBracket; break;
+      case ',': t.kind = TK_Comma; break;
+      case '~': t.kind = TK_Neg; break;
+      case '?': t.kind = TK_Question; break;
+      case '^': t.kind = TK_BitXor; break;
+      CASE2('!', TK_Not, TK_NotEquals);
+      CASE2('=', TK_Assign, TK_Equals);
+      CASE2('*', TK_Mul, TK_MulAssign);
+      CASE2('%', TK_Mod, TK_ModAssign);
+      CASE3('+', TK_Add, TK_AddAssign, TK_Increment);
+      CASE3('&', TK_BitAnd, TK_AndAssign, TK_And);
+      CASE3('|', TK_BitOr, TK_OrAssign, TK_Or);
+
+      case '#': {
+        t.kind = TK_Pound;
+        lex_parse_ident(table, s, &t);
+        t.str += 1;
+        t.len -= 1;
+        t.intern_val = intern_string(table, t.string);
+        if(t.len == 0) token_error(&t, "Macro token without content"_s);
+      }break;
+
+      case '.': {
+        if(lexc(s) == '.'){
+          lex_advance(s);
+          if(lexci(s,1) == '.') {
+            lex_advance(s);
+            t.kind = TK_ThreeDots;
+          }
+          else t.kind = TK_TwoDots;
+        }
+        else t.kind = TK_Dot;
+      } break;
+
+      case '\'':{
+        assert(s->stream.len >= s->iter);
+        UTF32_Result decode = utf8_to_utf32(lexcp(s), s->stream.len - s->iter);
+        if(!decode.error){
+          for(S32 i = 0; i < decode.advance; i++) lex_advance(s);
+          t.unicode = decode.out_str;
+          t.kind = TK_UnicodeLit;
+        }
+        else{
+          token_error(&t, "Invalid UTF8 sequence in unicode literal"_s);
+        }
+      } break;
+
+      case '<': {
+        if (lexc(s) == '<') {
+          lex_advance(s);
+          if (lexc(s) == '=') {
+            lex_advance(s);
+            t.kind = TK_LeftShiftAssign;
+          }
+          else {
+            t.kind = TK_LeftShift;
+          }
+        }
+        else if (lexc(s) == '=') {
+          lex_advance(s);
+          t.kind = TK_LesserThenOrEqual;
+        }
+        else {
+          t.kind = TK_LesserThen;
+        }
+      } break;
+
+      case '>': {
+        if (lexc(s) == '>') {
+          lex_advance(s);
+          if (lexc(s) == '=') {
+            lex_advance(s);
+            t.kind = TK_RightShiftAssign;
+          }
+          else {
+            t.kind = TK_RightShift;
+          }
+        }
+        else if (lexc(s) == '=') {
+          lex_advance(s);
+          t.kind = TK_GreaterThenOrEqual;
+        }
+        else {
+          t.kind = TK_GreaterThen;
+        }
+      } break;
+
+      case ':': {
+        if (lexc(s) == ':') {
+          lex_advance(s);
+          t.kind = TK_DoubleColon;
+        }
+        else if(lexc(s) == '='){
+          lex_advance(s);
+          t.kind = TK_ColonAssign;
+        }
+        else {
+          t.kind = TK_Colon;
+        }
+      } break;
+
+      case '-':{
+        if (lexc(s) == '=') {
+          lex_advance(s);
+          t.kind = TK_SubAssign;
+        }
+        else if (lexc(s) == '-') {
+          lex_advance(s);
+          t.kind = TK_Decrement;
+        }
+        else if (lexc(s) == '>') {
+          lex_advance(s);
+          t.kind = TK_Arrow;
+        }
+        else {
+          t.kind = TK_Sub;
+        }
+      } break;
+
+      case '"': {
+        t.kind = TK_StringLit;
+        lex_parse_string(s,&t,'"');
+        if(t.kind != TK_Error){
+          t.str += 1;
+          t.len -= 2;
+        }
+        t.intern_val = intern_string(table, t.string);
+      } break;
+
+      case '/': {
+        if(lexc(s) == '='){
+          t.kind = TK_DivAssign;
+          lex_advance(s);
+        }
+        else {
+          t.kind = TK_Div;
+        }
+      } break;
+
+      case '0':{
+        if(lexc(s) == 'x'){
+          lex_advance(s);
+          while(lex_is_numeric_base16(lexc(s)))
+            lex_advance(s);
+          lex_set_len(s, &t);
+          t.str += 2;
+          t.len -= 2;
+          if(t.len == 0)
+            token_error(&t, "Hex constant doesn't have value"_s);
+          else
+            lex_parse_u64(lexer, &t, 16);
+          break;
+        }
+        else if(lexc(s) == 'b'){
+          lex_advance(s);
+          while(lexc(s) == '0' || lexc(s) == '1')
+            lex_advance(s);
+          lex_set_len(s, &t);
+          t.str += 2;
+          t.len -= 2;
+          if(t.len == 0)
+            token_error(&t, "Hex constant doesn't have value"_s);
+          else
+            lex_parse_u64(lexer, &t, 2);
+          break;
+        }
+
+      }
+      case '1':case '2':case '3':case '4':
+      case '5':case '6':case '7':case '8':case '9':{
+        B32 found_dot = false;
+        for(;;){
+          if(lex_is_numeric(lexc(s)))
+            ;
+          else if(lexc(s) == '.'){
+            if(found_dot){
+              token_error(&t, "Multiple '.' in float literal"_s);
+              goto end_of_switch;
+            }
+            found_dot = true;
+          }
+          else break;
+
+          lex_advance(s);
+        }
+        lex_set_len(s, &t);
+        if(found_dot) lex_parse_f64(&t);
+        else          lex_parse_u64(lexer, &t, 10);
+
+      } break;
+
+      case 'A':case 'a':case 'M':case 'm':case 'B':
+      case 'b':case 'N':case 'n':case 'C':case 'c':case 'O':
+      case 'o':case 'D':case 'd':case 'P':case 'p':case 'E':
+      case 'e':case 'Q':case 'q':case 'F':case 'f':case 'R':
+      case 'r':case 'G':case 'g':case 'S':case 's':case 'H':
+      case 'h':case 'T':case 't':case 'I':case 'i':case 'U':
+      case 'u':case 'J':case 'j':case 'V':case 'v':case 'K':
+      case 'k':case 'W':case 'w':case 'L':case 'X':case 'l':
+      case 'x':case 'Z':case 'z':case 'Y':case 'y':case '_': {
+        t.kind = TK_Identifier;
+        lex_parse_ident(table, s, &t);
+        t.intern_val = intern_string(table, t.string);
+        if(lex_is_keyword(table, t.intern_val)){
+          t.kind = TK_Keyword;
+        }
+      } break;
+
+      default: {
+        token_error(&t, "Unknown token"_s);
+      }
+    }end_of_switch:
+
+    if(t.len==0)
+      lex_set_len(s,&t);
+
+    array->add(t);
+  }
+#undef CASE2
+#undef CASE3
+}
+
+function Lexer
+lex_make(Allocator *token_string_arena, Allocator *map_allocator){
+  Lexer result  = {};
+  lex_init(token_string_arena, map_allocator, &result);
+  return result;
+}
+
+function void
+lex_restream(Lexer *lexer, String istream, String file){
+  lexer->stream = {};
+  lexer->stream.stream = istream;
+  lexer->stream.line_begin = istream.str;
+  lexer->stream.file = lexer->intern(file);
+
+  Scratch scratch;
+  lexer->stream.indent_stack.allocator = scratch;
+  lexer->stream.indent_stack.add(&token_null);
+  lex__stream(lexer);
+}
+
+function Lexer
+lex_stream(Allocator *token_string_arena, Allocator *map_allocator, String istream, String file){
+  Lexer result = lex_make(token_string_arena, map_allocator);
+  lex_restream(&result, istream, file);
+  return result;
+}
+
+//-----------------------------------------------------------------------------
+// Token metadata
+//-----------------------------------------------------------------------------
+function const char *
+name(Token_Kind kind){
+  switch(kind){
+    case TK_End: return "End of stream";
+    case TK_Mul: return "*";
+    case TK_Div: return "/";
+    case TK_Add: return "+";
+    case TK_Sub: return "-";
+    case TK_Mod: return "%";
+    case TK_BitAnd: return "&";
+    case TK_BitOr: return "|";
+    case TK_BitXor: return "^";
+    case TK_Neg: return "~";
+    case TK_Not: return "!";
+    case TK_OpenParen: return "(";
+    case TK_CloseParen: return ")";
+    case TK_OpenBrace: return "{";
+    case TK_CloseBrace: return "}";
+    case TK_OpenBracket: return "[";
+    case TK_CloseBracket: return "]";
+    case TK_ColonAssign: return ":=";
+    case TK_Comma: return ",";
+    case TK_Pound: return "#";
+    case TK_Question: return "?";
+    case TK_ThreeDots: return "...";
+    case TK_Semicolon: return ";";
+    case TK_Dot: return ".";
+    case TK_LesserThen: return "<";
+    case TK_GreaterThen: return ">";
+    case TK_Colon: return ":";
+    case TK_Assign: return "=";
+    case TK_DivAssign: return "/=";
+    case TK_MulAssign: return "*=";
+    case TK_ModAssign: return "%=";
+    case TK_SubAssign: return "-=";
+    case TK_AddAssign: return "+=";
+    case TK_AndAssign: return "&=";
+    case TK_OrAssign: return "|=";
+    case TK_XorAssign: return "^=";
+    case TK_LeftShiftAssign: return "<<=";
+    case TK_RightShiftAssign: return ">>=";
+    case TK_DoubleColon: return "::";
+    case TK_At: return "@";
+    case TK_Decrement: return "--";
+    case TK_Increment: return "++";
+    case TK_PostDecrement: return "--";
+    case TK_PostIncrement: return "++";
+    case TK_LesserThenOrEqual: return "<=";
+    case TK_GreaterThenOrEqual: return ">=";
+    case TK_Equals: return "==";
+    case TK_And: return "&&";
+    case TK_Or: return "||";
+    case TK_NotEquals: return "!=";
+    case TK_LeftShift: return "<<";
+    case TK_RightShift: return ">>";
+    case TK_Arrow: return "->";
+    case TK_NewLine: return "New_Line";
+    case TK_ExprSizeof: return "sizeof";
+    case TK_DocComment: return "Doc_Comment";
+    case TK_Comment: return "Comment";
+    case TK_Identifier: return "Identifier";
+    case TK_StringLit: return "String_Lit";
+    case TK_UnicodeLit: return "Unicode_Lit";
+    case TK_Error: return "Error";
+    case TK_Float: return "Float";
+    case TK_Integer: return "int";
+    case TK_Keyword: return "Keyword";
+    case CLOSE_SCOPE: return "Close_Scope";
+    case OPEN_SCOPE: return "Open_Scope";
+    case SAME_SCOPE: return "Same_Scope";
+    default: invalid_codepath; return "<Undefined>";
+  }
+}