#ifndef SASS_PARSER_H
#define SASS_PARSER_H
#include <string>
#include <vector>
#include "ast.hpp"
#include "position.hpp"
#include "context.hpp"
#include "position.hpp"
#include "prelexer.hpp"
struct Lookahead {
const char* found;
const char* error;
const char* position;
bool parsable;
bool has_interpolants;
};
namespace Sass {
class Parser : public ParserState {
public:
enum Scope { Root, Mixin, Function, Media, Control, Properties, Rules };
Context& ctx;
std::vector<Block_Obj> block_stack;
std::vector<Scope> stack;
Media_Block_Ptr last_media_block;
const char* source;
const char* position;
const char* end;
Position before_token;
Position after_token;
ParserState pstate;
int indentation;
Token lexed;
Parser(Context& ctx, const ParserState& pstate)
: ParserState(pstate), ctx(ctx), block_stack(), stack(0), last_media_block(),
source(0), position(0), end(0), before_token(pstate), after_token(pstate), pstate(pstate), indentation(0)
{ stack.push_back(Scope::Root); }
// static Parser from_string(const std::string& src, Context& ctx, ParserState pstate = ParserState("[STRING]"));
static Parser from_c_str(const char* src, Context& ctx, ParserState pstate = ParserState("[CSTRING]"), const char* source = 0);
static Parser from_c_str(const char* beg, const char* end, Context& ctx, ParserState pstate = ParserState("[CSTRING]"), const char* source = 0);
static Parser from_token(Token t, Context& ctx, ParserState pstate = ParserState("[TOKEN]"), const char* source = 0);
// special static parsers to convert strings into certain selectors
static Selector_List_Obj parse_selector(const char* src, Context& ctx, ParserState pstate = ParserState("[SELECTOR]"), const char* source = 0);
#ifdef __clang__
// lex and peak uses the template parameter to branch on the action, which
// triggers clangs tautological comparison on the single-comparison
// branches. This is not a bug, just a merging of behaviour into
// one function
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wtautological-compare"
#endif
// skip current token and next whitespace
// moves ParserState right before next token
void advanceToNextToken();
bool peek_newline(const char* start = 0);
// skip over spaces, tabs and line comments
template <Prelexer::prelexer mx>
const char* sneak(const char* start = 0)
{
using namespace Prelexer;
// maybe use optional start position from arguments?
const char* it_position = start ? start : position;
// skip white-space?
if (mx == spaces ||
mx == no_spaces ||
mx == css_comments ||
mx == css_whitespace ||
mx == optional_spaces ||
mx == optional_css_comments ||
mx == optional_css_whitespace
) {
return it_position;
}
// skip over spaces, tabs and sass line comments
const char* pos = optional_css_whitespace(it_position);
// always return a valid position
return pos ? pos : it_position;
}
// peek will only skip over space, tabs and line comment
// return the position where the lexer match will occur
template <Prelexer::prelexer mx>
const char* match(const char* start = 0)
{
// match the given prelexer
return mx(position);
}
// peek will only skip over space, tabs and line comment
// return the position where the lexer match will occur
template <Prelexer::prelexer mx>
const char* peek(const char* start = 0)
{
// sneak up to the actual token we want to lex
// this should skip over white-space if desired
const char* it_before_token = sneak < mx >(start);
// match the given prelexer
const char* match = mx(it_before_token);
// check if match is in valid range
return match <= end ? match : 0;
}
// white-space handling is built into the lexer
// this way you do not need to parse it yourself
// some matchers don't accept certain white-space
// we do not support start arg, since we manipulate
// sourcemap offset and we modify the position pointer!
// lex will only skip over space, tabs and line comment
template <Prelexer::prelexer mx>
const char* lex(bool lazy = true, bool force = false)
{
if (*position == 0) return 0;
// position considered before lexed token
// we can skip whitespace or comments for
// lazy developers (but we need control)
const char* it_before_token = position;
// sneak up to the actual token we want to lex
// this should skip over white-space if desired
if (lazy) it_before_token = sneak < mx >(position);
// now call matcher to get position after token
const char* it_after_token = mx(it_before_token);
// check if match is in valid range
if (it_after_token > end) return 0;
// maybe we want to update the parser state anyway?
if (force == false) {
// assertion that we got a valid match
if (it_after_token == 0) return 0;
// assertion that we actually lexed something
if (it_after_token == it_before_token) return 0;
}
// create new lexed token object (holds the parse results)
lexed = Token(position, it_before_token, it_after_token);
// advance position (add whitespace before current token)
before_token = after_token.add(position, it_before_token);
// update after_token position for current token
after_token.add(it_before_token, it_after_token);
// ToDo: could probably do this incremetal on original object (API wants offset?)
pstate = ParserState(path, source, lexed, before_token, after_token - before_token);
// advance internal char iterator
return position = it_after_token;
}
// lex_css skips over space, tabs, line and block comment
// all block comments will be consumed and thrown away
// source-map position will point to token after the comment
template <Prelexer::prelexer mx>
const char* lex_css()
{
// copy old token
Token prev = lexed;
// store previous pointer
const char* oldpos = position;
Position bt = before_token;
Position at = after_token;
ParserState op = pstate;
// throw away comments
// update srcmap position
lex < Prelexer::css_comments >();
// now lex a new token
const char* pos = lex< mx >();
// maybe restore prev state
if (pos == 0) {
pstate = op;
lexed = prev;
position = oldpos;
after_token = at;
before_token = bt;
}
// return match
return pos;
}
// all block comments will be skipped and thrown away
template <Prelexer::prelexer mx>
const char* peek_css(const char* start = 0)
{
// now peek a token (skip comments first)
return peek< mx >(peek < Prelexer::css_comments >(start));
}
#ifdef __clang__
#pragma clang diagnostic pop
#endif
void error(std::string msg, Position pos);
// generate message with given and expected sample
// text before and in the middle are configurable
void css_error(const std::string& msg,
const std::string& prefix = " after ",
const std::string& middle = ", was: ",
const bool trim = true);
void read_bom();
Block_Obj parse();
Import_Obj parse_import();
Definition_Obj parse_definition(Definition::Type which_type);
Parameters_Obj parse_parameters();
Parameter_Obj parse_parameter();
Mixin_Call_Obj parse_include_directive();
Arguments_Obj parse_arguments();
Argument_Obj parse_argument();
Assignment_Obj parse_assignment();
Ruleset_Obj parse_ruleset(Lookahead lookahead);
Selector_List_Obj parse_selector_list(bool chroot);
Complex_Selector_Obj parse_complex_selector(bool chroot);
Selector_Schema_Obj parse_selector_schema(const char* end_of_selector, bool chroot);
Compound_Selector_Obj parse_compound_selector();
Simple_Selector_Obj parse_simple_selector();
Wrapped_Selector_Obj parse_negated_selector();
Simple_Selector_Obj parse_pseudo_selector();
Attribute_Selector_Obj parse_attribute_selector();
Block_Obj parse_block(bool is_root = false);
Block_Obj parse_css_block(bool is_root = false);
bool parse_block_nodes(bool is_root = false);
bool parse_block_node(bool is_root = false);
bool parse_number_prefix();
Declaration_Obj parse_declaration();
Expression_Obj parse_map();
Expression_Obj parse_list(bool delayed = false);
Expression_Obj parse_comma_list(bool delayed = false);
Expression_Obj parse_space_list();
Expression_Obj parse_disjunction();
Expression_Obj parse_conjunction();
Expression_Obj parse_relation();
Expression_Obj parse_expression();
Expression_Obj parse_operators();
Expression_Obj parse_factor();
Expression_Obj parse_value();
Function_Call_Obj parse_calc_function();
Function_Call_Obj parse_function_call();
Function_Call_Schema_Obj parse_function_call_schema();
String_Obj parse_url_function_string();
String_Obj parse_url_function_argument();
String_Obj parse_interpolated_chunk(Token, bool constant = false);
String_Obj parse_string();
String_Constant_Obj parse_static_value();
String_Obj parse_ie_property();
String_Obj parse_ie_keyword_arg();
String_Schema_Obj parse_value_schema(const char* stop);
String_Obj parse_identifier_schema();
If_Obj parse_if_directive(bool else_if = false);
For_Obj parse_for_directive();
Each_Obj parse_each_directive();
While_Obj parse_while_directive();
Return_Obj parse_return_directive();
Content_Obj parse_content_directive();
void parse_charset_directive();
Media_Block_Obj parse_media_block();
List_Obj parse_media_queries();
Media_Query_Obj parse_media_query();
Media_Query_Expression_Obj parse_media_expression();
Supports_Block_Obj parse_supports_directive();
Supports_Condition_Obj parse_supports_condition();
Supports_Condition_Obj parse_supports_negation();
Supports_Condition_Obj parse_supports_operator();
Supports_Condition_Obj parse_supports_interpolation();
Supports_Condition_Obj parse_supports_declaration();
Supports_Condition_Obj parse_supports_condition_in_parens();
At_Root_Block_Obj parse_at_root_block();
At_Root_Query_Obj parse_at_root_query();
String_Schema_Obj parse_almost_any_value();
Directive_Obj parse_special_directive();
Directive_Obj parse_prefixed_directive();
Directive_Obj parse_directive();
Warning_Obj parse_warning();
Error_Obj parse_error();
Debug_Obj parse_debug();
// be more like ruby sass
Expression_Obj lex_almost_any_value_token();
Expression_Obj lex_almost_any_value_chars();
Expression_Obj lex_interp_string();
Expression_Obj lex_interp_uri();
Expression_Obj lex_interpolation();
// these will throw errors
Token lex_variable();
Token lex_identifier();
void parse_block_comments();
Lookahead lookahead_for_value(const char* start = 0);
Lookahead lookahead_for_selector(const char* start = 0);
Lookahead lookahead_for_include(const char* start = 0);
Expression_Obj fold_operands(Expression_Obj base, std::vector<Expression_Obj>& operands, Operand op);
Expression_Obj fold_operands(Expression_Obj base, std::vector<Expression_Obj>& operands, std::vector<Operand>& ops, size_t i = 0);
void throw_syntax_error(std::string message, size_t ln = 0);
void throw_read_error(std::string message, size_t ln = 0);
template <Prelexer::prelexer open, Prelexer::prelexer close>
Expression_Obj lex_interp()
{
if (lex < open >(false)) {
String_Schema_Obj schema = SASS_MEMORY_NEW(String_Schema, pstate);
// std::cerr << "LEX [[" << std::string(lexed) << "]]\n";
schema->append(SASS_MEMORY_NEW(String_Constant, pstate, lexed));
if (position[0] == '#' && position[1] == '{') {
Expression_Obj itpl = lex_interpolation();
if (!itpl.isNull()) schema->append(itpl);
while (lex < close >(false)) {
// std::cerr << "LEX [[" << std::string(lexed) << "]]\n";
schema->append(SASS_MEMORY_NEW(String_Constant, pstate, lexed));
if (position[0] == '#' && position[1] == '{') {
Expression_Obj itpl = lex_interpolation();
if (!itpl.isNull()) schema->append(itpl);
} else {
return schema;
}
}
} else {
return SASS_MEMORY_NEW(String_Constant, pstate, lexed);
}
}
return 0;
}
public:
static Number_Ptr lexed_number(const ParserState& pstate, const std::string& parsed);
static Number_Ptr lexed_dimension(const ParserState& pstate, const std::string& parsed);
static Number_Ptr lexed_percentage(const ParserState& pstate, const std::string& parsed);
static Expression_Ptr lexed_hex_color(const ParserState& pstate, const std::string& parsed);
private:
Number_Ptr lexed_number(const std::string& parsed) { return lexed_number(pstate, parsed); };
Number_Ptr lexed_dimension(const std::string& parsed) { return lexed_dimension(pstate, parsed); };
Number_Ptr lexed_percentage(const std::string& parsed) { return lexed_percentage(pstate, parsed); };
Expression_Ptr lexed_hex_color(const std::string& parsed) { return lexed_hex_color(pstate, parsed); };
};
size_t check_bom_chars(const char* src, const char *end, const unsigned char* bom, size_t len);
}
#endif