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ChaiScript/chaiscript/chaiscript_parser.hpp
Jonathan Turner 2cba593c53 Add prefix ++ and --
2009-06-30 19:34:16 +00:00

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// This file is distributed under the BSD License.
// See LICENSE.TXT for details.
#ifndef CHAISCRIPT_PARSER_HPP_
#define CHAISCRIPT_PARSER_HPP_
#include <exception>
#include <fstream>
#include "chaiscript_prelude.hpp"
namespace chaiscript
{
class ChaiScript_Parser {
std::string::iterator input_pos, input_end;
int line, col;
std::string multiline_comment_begin, multiline_comment_end;
std::string singleline_comment;
const char *filename;
std::vector<TokenPtr> match_stack;
public:
ChaiScript_Parser() {
multiline_comment_begin = "/*";
multiline_comment_end = "*/";
singleline_comment = "//";
}
void debug_print(TokenPtr t, std::string prepend = "") {
std::cout << prepend << "(" << token_type_to_string(t->identifier) << ") " << t->text << " : " << t->start.line << ", " << t->start.column << std::endl;
for (unsigned int j = 0; j < t->children.size(); ++j) {
debug_print(t->children[j], prepend + " ");
}
}
void show_match_stack() {
for (unsigned int i = 0; i < match_stack.size(); ++i) {
debug_print(match_stack[i]);
}
}
void clear_match_stack() {
match_stack.clear();
}
TokenPtr ast() {
return match_stack.front();
}
void build_match(Token_Type::Type match_type, int match_start) {
//so we want to take everything to the right of this and make them children
if (match_start != (int)match_stack.size()) {
TokenPtr t(new Token("", match_type, filename, match_stack[match_start]->start.line, match_stack[match_start]->start.column, line, col));
t->children.assign(match_stack.begin() + (match_start), match_stack.end());
match_stack.erase(match_stack.begin() + (match_start), match_stack.end());
match_stack.push_back(t);
}
else {
//todo: fix the fact that a successful match that captured no tokens does't have any real start position
TokenPtr t(new Token("", match_type, filename, line, col, line, col));
match_stack.push_back(t);
}
}
bool SkipComment() {
bool retval = false;
if (Symbol_(multiline_comment_begin.c_str())) {
while (input_pos != input_end) {
if (Symbol_(multiline_comment_end.c_str())) {
break;
}
else if (!Eol_()) {
++col;
++input_pos;
}
}
retval = true;
}
else if (Symbol_(singleline_comment.c_str())) {
while (input_pos != input_end) {
if (Eol_()) {
break;
}
else {
++col;
++input_pos;
}
}
retval = true;
}
return retval;
}
bool SkipWS() {
bool retval = false;
while (input_pos != input_end) {
if ((*input_pos == ' ') || (*input_pos == '\t')) {
++input_pos;
++col;
retval = true;
}
else if (SkipComment()) {
retval = true;
}
else {
break;
}
}
return retval;
}
bool Int_() {
bool retval = false;
if ((input_pos != input_end) && (*input_pos >= '0') && (*input_pos <= '9')) {
retval = true;
while ((input_pos != input_end) && (*input_pos >= '0') && (*input_pos <= '9')) {
++input_pos;
++col;
}
}
return retval;
}
bool Float_() {
bool retval = false;
if ((input_pos != input_end) && (*input_pos >= '0') && (*input_pos <= '9')) {
while ((input_pos != input_end) && (*input_pos >= '0') && (*input_pos <= '9')) {
++input_pos;
++col;
}
if (*input_pos == '.') {
++input_pos;
++col;
if ((input_pos != input_end) && (*input_pos >= '0') && (*input_pos <= '9')) {
retval = true;
while ((input_pos != input_end) && (*input_pos >= '0') && (*input_pos <= '9')) {
++input_pos;
++col;
}
}
else {
--input_pos;
--col;
}
}
}
return retval;
}
bool Num(bool capture = false) {
SkipWS();
if (!capture) {
return Float_();
}
else {
std::string::iterator start = input_pos;
int prev_col = col;
int prev_line = line;
if ((input_pos != input_end) && (*input_pos >= '0') && (*input_pos <= '9')) {
if (Float_()) {
std::string match(start, input_pos);
TokenPtr t(new Token(match, Token_Type::Float, filename, prev_line, prev_col, line, col));
match_stack.push_back(t);
return true;
}
else {
std::string match(start, input_pos);
TokenPtr t(new Token(match, Token_Type::Int, filename, prev_line, prev_col, line, col));
match_stack.push_back(t);
return true;
}
}
else {
return false;
}
}
}
bool Id_() {
bool retval = false;
if ((input_pos != input_end) && (((*input_pos >= 'A') && (*input_pos <= 'Z')) || (*input_pos == '_') || ((*input_pos >= 'a') && (*input_pos <= 'z')))) {
retval = true;
while ((input_pos != input_end) && (((*input_pos >= 'A') && (*input_pos <= 'Z')) || (*input_pos == '_') || ((*input_pos >= 'a') && (*input_pos <= 'z'))
|| ((*input_pos >= '0') && (*input_pos <= '9')))) {
++input_pos;
++col;
}
}
return retval;
}
bool Id(bool capture = false) {
SkipWS();
if (!capture) {
return Id_();
}
else {
std::string::iterator start = input_pos;
int prev_col = col;
int prev_line = line;
if (Id_()) {
std::string match(start, input_pos);
TokenPtr t(new Token(match, Token_Type::Id, filename, prev_line, prev_col, line, col));
match_stack.push_back(t);
return true;
}
else {
return false;
}
}
}
bool Quoted_String_() {
bool retval = false;
char prev_char = 0;
if ((input_pos != input_end) && (*input_pos == '\"')) {
retval = true;
prev_char = *input_pos;
++input_pos;
++col;
while ((input_pos != input_end) && ((*input_pos != '\"') || ((*input_pos == '\"') && (prev_char == '\\')))) {
if (!Eol_()) {
if (prev_char == '\\') {
prev_char = 0;
}
else {
prev_char = *input_pos;
}
++input_pos;
++col;
}
}
if (input_pos != input_end) {
++input_pos;
++col;
}
else {
throw Parse_Error("Unclosed quoted string", File_Position(line, col), filename);
}
}
return retval;
}
bool Quoted_String(bool capture = false) {
SkipWS();
if (!capture) {
return Quoted_String_();
}
else {
std::string::iterator start = input_pos;
int prev_col = col;
int prev_line = line;
if (Quoted_String_()) {
std::string match;
bool is_escaped = false;
for (std::string::iterator s = start + 1, end = input_pos - 1; s != end; ++s) {
if (*s == '\\') {
if (is_escaped) {
match.push_back('\\');
is_escaped = false;
}
else {
is_escaped = true;
}
}
else {
if (is_escaped) {
switch (*s) {
case ('b') : match.push_back('\b'); break;
case ('f') : match.push_back('\f'); break;
case ('n') : match.push_back('\n'); break;
case ('r') : match.push_back('\r'); break;
case ('t') : match.push_back('\t'); break;
case ('\'') : match.push_back('\''); break;
case ('\"') : match.push_back('\"'); break;
default: throw Parse_Error("Unknown escaped sequence in string", File_Position(prev_line, prev_col), filename);
}
}
else {
match.push_back(*s);
}
is_escaped = false;
}
}
TokenPtr t(new Token(match, Token_Type::Quoted_String, filename, prev_line, prev_col, line, col));
match_stack.push_back(t);
return true;
}
else {
return false;
}
}
}
bool Single_Quoted_String_() {
bool retval = false;
char prev_char = 0;
if ((input_pos != input_end) && (*input_pos == '\'')) {
retval = true;
prev_char = *input_pos;
++input_pos;
++col;
while ((input_pos != input_end) && ((*input_pos != '\'') || ((*input_pos == '\'') && (prev_char == '\\')))) {
if (!Eol_()) {
if (prev_char == '\\') {
prev_char = 0;
}
else {
prev_char = *input_pos;
}
++input_pos;
++col;
}
}
if (input_pos != input_end) {
++input_pos;
++col;
}
else {
throw Parse_Error("Unclosed single-quoted string", File_Position(line, col), filename);
}
}
return retval;
}
bool Single_Quoted_String(bool capture = false) {
SkipWS();
if (!capture) {
return Single_Quoted_String_();
}
else {
std::string::iterator start = input_pos;
int prev_col = col;
int prev_line = line;
if (Single_Quoted_String_()) {
std::string match;
bool is_escaped = false;
for (std::string::iterator s = start + 1, end = input_pos - 1; s != end; ++s) {
if (*s == '\\') {
if (is_escaped) {
match.push_back('\\');
is_escaped = false;
}
else {
is_escaped = true;
}
}
else {
if (is_escaped) {
switch (*s) {
case ('b') : match.push_back('\b'); break;
case ('f') : match.push_back('\f'); break;
case ('n') : match.push_back('\n'); break;
case ('r') : match.push_back('\r'); break;
case ('t') : match.push_back('\t'); break;
case ('\'') : match.push_back('\''); break;
case ('\"') : match.push_back('\"'); break;
default: throw Parse_Error("Unknown escaped sequence in string", File_Position(prev_line, prev_col), filename);
}
}
else {
match.push_back(*s);
}
is_escaped = false;
}
}
TokenPtr t(new Token(match, Token_Type::Single_Quoted_String, filename, prev_line, prev_col, line, col));
match_stack.push_back(t);
return true;
}
else {
return false;
}
}
}
bool Char_(char c) {
bool retval = false;
if ((input_pos != input_end) && (*input_pos == c)) {
++input_pos;
++col;
retval = true;
}
return retval;
}
bool Char(char c, bool capture = false) {
SkipWS();
if (!capture) {
return Char_(c);
}
else {
std::string::iterator start = input_pos;
int prev_col = col;
int prev_line = line;
if (Char_(c)) {
std::string match(start, input_pos);
TokenPtr t(new Token(match, Token_Type::Char, filename, prev_line, prev_col, line, col));
match_stack.push_back(t);
return true;
}
else {
return false;
}
}
}
bool Keyword_(const char *s) {
bool retval = false;
int len = strlen(s);
if ((input_end - input_pos) >= len) {
std::string::iterator tmp = input_pos;
for (int i = 0; i < len; ++i) {
if (*tmp != s[i]) {
return false;
}
++tmp;
}
retval = true;
input_pos = tmp;
col += len;
}
return retval;
}
bool Keyword(const char *s, bool capture = false) {
SkipWS();
if (!capture) {
std::string::iterator start = input_pos;
int prev_col = col;
int prev_line = line;
bool retval = Keyword_(s);
if (retval) {
//todo: fix this. Hacky workaround for preventing substring matches
if ((input_pos != input_end) && (((*input_pos >= 'A') && (*input_pos <= 'Z')) || (*input_pos == '_') || ((*input_pos >= 'a') && (*input_pos <= 'z'))
|| ((*input_pos >= '0') && (*input_pos <= '9')))) {
input_pos = start;
col = prev_col;
line = prev_line;
return false;
}
return true;
}
else {
return retval;
}
}
else {
std::string::iterator start = input_pos;
int prev_col = col;
int prev_line = line;
if (Keyword_(s)) {
//todo: fix this. Hacky workaround for preventing substring matches
if ((input_pos != input_end) && (((*input_pos >= 'A') && (*input_pos <= 'Z')) || (*input_pos == '_') || ((*input_pos >= 'a') && (*input_pos <= 'z'))
|| ((*input_pos >= '0') && (*input_pos <= '9')))) {
input_pos = start;
col = prev_col;
line = prev_line;
return false;
}
std::string match(start, input_pos);
TokenPtr t(new Token(match, Token_Type::Str, filename, prev_line, prev_col, line, col));
match_stack.push_back(t);
return true;
}
else {
return false;
}
}
}
bool Symbol_(const char *s) {
bool retval = false;
int len = strlen(s);
if ((input_end - input_pos) >= len) {
std::string::iterator tmp = input_pos;
for (int i = 0; i < len; ++i) {
if (*tmp != s[i]) {
return false;
}
++tmp;
}
retval = true;
input_pos = tmp;
col += len;
}
return retval;
}
bool Symbol(const char *s, bool capture = false) {
SkipWS();
if (!capture) {
std::string::iterator start = input_pos;
int prev_col = col;
int prev_line = line;
bool retval = Symbol_(s);
if (retval) {
//todo: fix this. Hacky workaround for preventing substring matches
if ((input_pos != input_end) && ((*input_pos == '+') || (*input_pos == '-') || (*input_pos == '*') || (*input_pos == '/') || (*input_pos == '='))) {
input_pos = start;
col = prev_col;
line = prev_line;
return false;
}
return true;
}
else {
return retval;
}
}
else {
std::string::iterator start = input_pos;
int prev_col = col;
int prev_line = line;
if (Symbol_(s)) {
//todo: fix this. Hacky workaround for preventing substring matches
if ((input_pos != input_end) && ((*input_pos == '+') || (*input_pos == '-') || (*input_pos == '*') || (*input_pos == '/') || (*input_pos == '='))) {
input_pos = start;
col = prev_col;
line = prev_line;
return false;
}
else {
std::string match(start, input_pos);
TokenPtr t(new Token(match, Token_Type::Str, filename, prev_line, prev_col, line, col));
match_stack.push_back(t);
return true;
}
}
else {
return false;
}
}
}
bool Eol_() {
bool retval = false;
if ((input_pos != input_end) && (Symbol_("\r\n") || Char_('\n'))) {
retval = true;
++line;
col = 1;
}
else if ((input_pos != input_end) && Char_(';')) {
retval = true;
}
return retval;
}
bool Eol(bool capture = false) {
SkipWS();
if (!capture) {
return Eol_();
}
else {
std::string::iterator start = input_pos;
int prev_col = col;
int prev_line = line;
if (Eol_()) {
std::string match(start, input_pos);
TokenPtr t(new Token(match, Token_Type::Eol, filename, prev_line, prev_col, line, col));
match_stack.push_back(t);
return true;
}
else {
return false;
}
}
}
bool Arg_List() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Expression()) {
retval = true;
if (Char(',')) {
do {
if (!Expression()) {
throw Parse_Error("Unexpected value in parameter list", match_stack.back());
}
} while (retval && Char(','));
}
build_match(Token_Type::Arg_List, prev_stack_top);
}
return retval;
}
bool Lambda() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Keyword("fun")) {
retval = true;
if (Char('(')) {
Arg_List();
if (!Char(')')) {
throw Parse_Error("Incomplete anonymous function", File_Position(line, col), filename);
}
}
while (Eol());
if (!Block()) {
throw Parse_Error("Incomplete anonymous function", File_Position(line, col), filename);
}
build_match(Token_Type::Lambda, prev_stack_top);
}
return retval;
}
bool Def() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Keyword("def")) {
retval = true;
if (!Id(true)) {
throw Parse_Error("Missing function name in definition", File_Position(line, col), filename);
}
if (Char('(')) {
Arg_List();
if (!Char(')')) {
throw Parse_Error("Incomplete function definition", File_Position(line, col), filename);
}
}
while (Eol());
if (!Block()) {
throw Parse_Error("Incomplete function definition", File_Position(line, col), filename);
}
build_match(Token_Type::Def, prev_stack_top);
}
return retval;
}
bool If() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Keyword("if")) {
retval = true;
if (!Char('(')) {
throw Parse_Error("Incomplete if expression", File_Position(line, col), filename);
}
if (!(Expression() && Char(')'))) {
throw Parse_Error("Incomplete if expression", File_Position(line, col), filename);
}
while (Eol());
if (!Block()) {
throw Parse_Error("Incomplete if block", File_Position(line, col), filename);
}
build_match(Token_Type::If, prev_stack_top);
}
return retval;
}
bool While() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Keyword("while")) {
retval = true;
if (!Char('(')) {
throw Parse_Error("Incomplete while expression", File_Position(line, col), filename);
}
if (!(Expression() && Char(')'))) {
throw Parse_Error("Incomplete while expression", File_Position(line, col), filename);
}
while (Eol());
if (!Block()) {
throw Parse_Error("Incomplete while block", File_Position(line, col), filename);
}
build_match(Token_Type::While, prev_stack_top);
}
return retval;
}
bool Block() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Char('{')) {
retval = true;
Statements();
if (!Char('}')) {
throw Parse_Error("Incomplete block", File_Position(line, col), filename);
}
build_match(Token_Type::Block, prev_stack_top);
}
return retval;
}
bool Return() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Keyword("return")) {
retval = true;
Expression();
build_match(Token_Type::Return, prev_stack_top);
}
return retval;
}
bool Id_Fun_Array() {
bool retval = false;
std::string::iterator prev_pos = input_pos;
unsigned int prev_stack_top = match_stack.size();
if (Id(true)) {
retval = true;
bool has_more = true;
while (has_more) {
has_more = false;
if (Char('(')) {
has_more = true;
Arg_List();
if (!Char(')')) {
throw Parse_Error("Incomplete function call", File_Position(line, col), filename);
}
build_match(Token_Type::Fun_Call, prev_stack_top);
}
else if (Char('[')) {
has_more = true;
if (!(Expression() && Char(']'))) {
throw Parse_Error("Incomplete array access", File_Position(line, col), filename);
}
build_match(Token_Type::Array_Call, prev_stack_top);
}
}
}
return retval;
}
/*
* TODO: Look into if we need an explicit LHS for equations
bool LHS() {
if (Var_Decl() || Id()) {
return true;
}
else {
return false;
}
}
*/
bool Var_Decl() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Keyword("var")) {
retval = true;
if (!Id(true)) {
throw Parse_Error("Incomplete variable declaration", File_Position(line, col), filename);
}
build_match(Token_Type::Var_Decl, prev_stack_top);
}
return retval;
}
bool Paren_Expression() {
bool retval = false;
if (Char('(')) {
retval = true;
if (!Expression()) {
throw Parse_Error("Incomplete expression", File_Position(line, col), filename);
}
if (!Char(')')) {
throw Parse_Error("Missing closing parenthesis", File_Position(line, col), filename);
}
}
return retval;
}
bool Inline_Container() {
bool retval = false;
unsigned int prev_stack_top = match_stack.size();
if (Char('[')) {
retval = true;
Arg_List();
if (!Char(']')) {
throw Parse_Error("Missing closing square bracket", File_Position(line, col), filename);
}
build_match(Token_Type::Inline_Array, prev_stack_top);
}
return retval;
}
bool Id_Literal() {
bool retval = false;
SkipWS();
if ((input_pos != input_end) && (*input_pos == '`')) {
retval = true;
int prev_col = col;
int prev_line = line;
++col;
++input_pos;
std::string::iterator start = input_pos;
while ((input_pos != input_end) && (*input_pos != '`')) {
if (Eol()) {
throw Parse_Error("Carriage return in identifier literal", File_Position(line, col), filename);
}
else {
++input_pos;
++col;
}
}
if (start == input_pos) {
throw Parse_Error("Missing contents of identifier literal", File_Position(line, col), filename);
}
else if (input_pos == input_end) {
throw Parse_Error("Incomplete identifier literal", File_Position(line, col), filename);
}
++col;
std::string match(start, input_pos);
TokenPtr t(new Token(match, Token_Type::Id, filename, prev_line, prev_col, line, col));
match_stack.push_back(t);
++input_pos;
}
return retval;
}
bool Value() {
if (Var_Decl() || Lambda() || Id_Fun_Array() || Num(true) || Prefix() || Quoted_String(true) || Single_Quoted_String(true) ||
Paren_Expression() || Inline_Container() || Id_Literal()) {
return true;
}
else {
return false;
}
}
bool Prefix() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Symbol("-")) {
retval = true;
if (!Additive()) {
throw Parse_Error("Incomplete negation expression", File_Position(line, col), filename);
}
build_match(Token_Type::Negate, prev_stack_top);
}
else if (Symbol("!")) {
retval = true;
if (!Expression()) {
throw Parse_Error("Incomplete '!' expression", File_Position(line, col), filename);
}
build_match(Token_Type::Not, prev_stack_top);
}
if (Symbol("++", true)) {
retval = true;
if (!Expression()) {
throw Parse_Error("Incomplete '++' expression", File_Position(line, col), filename);
}
build_match(Token_Type::Prefix, prev_stack_top);
}
else if (Symbol("--", true)) {
retval = true;
if (!Expression()) {
throw Parse_Error("Incomplete '--' expression", File_Position(line, col), filename);
}
build_match(Token_Type::Prefix, prev_stack_top);
}
return retval;
}
bool Comparison() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Additive()) {
retval = true;
if (Symbol(">=", true) || Symbol(">", true) || Symbol("<=", true) || Symbol("<", true) || Symbol("==", true) || Symbol("!=", true)) {
do {
if (!Additive()) {
throw Parse_Error("Incomplete comparison expression", File_Position(line, col), filename);
}
} while (retval && (Symbol(">=", true) || Symbol(">", true) || Symbol("<=", true) || Symbol("<", true) || Symbol("==", true) || Symbol("!=", true)));
build_match(Token_Type::Comparison, prev_stack_top);
}
}
return retval;
}
bool Additive() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Multiplicative()) {
retval = true;
if (Symbol("+", true) || Symbol("-", true)) {
do {
if (!Multiplicative()) {
throw Parse_Error("Incomplete math expression", File_Position(line, col), filename);
}
} while (retval && (Symbol("+", true) || Symbol("-", true)));
build_match(Token_Type::Additive, prev_stack_top);
}
}
return retval;
}
bool Multiplicative() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Dot_Access()) {
retval = true;
if (Symbol("*", true) || Symbol("/", true)) {
do {
if (!Dot_Access()) {
throw Parse_Error("Incomplete math expression", File_Position(line, col), filename);
}
} while (retval && (Symbol("*", true) || Symbol("/", true)));
build_match(Token_Type::Multiplicative, prev_stack_top);
}
}
return retval;
}
bool Dot_Access() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Value()) {
retval = true;
if (Symbol(".")) {
do {
if (!Value()) {
throw Parse_Error("Incomplete dot notation", File_Position(line, col), filename);
}
} while (retval && Symbol("."));
build_match(Token_Type::Dot_Access, prev_stack_top);
}
}
return retval;
}
bool Expression() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Comparison()) {
retval = true;
if (Symbol("&&", true) || Symbol("||", true)) {
do {
if (!Comparison()) {
throw Parse_Error("Incomplete expression", File_Position(line, col), filename);
}
} while (retval && (Symbol("&&", true) || Symbol("||", true)));
build_match(Token_Type::Expression, prev_stack_top);
}
}
return retval;
}
bool Equation() {
bool retval = false;
int prev_stack_top = match_stack.size();
if (Expression()) {
retval = true;
if (Symbol("=", true) || Symbol("+=", true) || Symbol("-=", true) || Symbol("*=", true) || Symbol("/=", true)) {
if (!Equation()) {
throw Parse_Error("Incomplete equation", match_stack.back());
}
build_match(Token_Type::Equation, prev_stack_top);
}
}
return retval;
}
bool Statement() {
if (Return() || Equation()) {
return true;
}
else {
return false;
}
}
bool Statements() {
bool retval = false;
bool has_more = true;
bool saw_eol = true;
while (has_more) {
has_more = false;
if (Def()) {
if (!saw_eol) {
throw Parse_Error("Two function definitions missing line separator", match_stack.back());
}
has_more = true;
retval = true;
saw_eol = false;
}
else if (If()) {
if (!saw_eol) {
throw Parse_Error("Two function definitions missing line separator", match_stack.back());
}
has_more = true;
retval = true;
saw_eol = false;
}
else if (While()) {
if (!saw_eol) {
throw Parse_Error("Two function definitions missing line separator", match_stack.back());
}
has_more = true;
retval = true;
saw_eol = false;
}
else if (Statement()) {
if (!saw_eol) {
throw Parse_Error("Two expressions missing line separator", match_stack.back());
}
has_more = true;
retval = true;
saw_eol = false;
}
else if (Eol()) {
has_more = true;
retval = true;
saw_eol = true;
}
else {
has_more = false;
}
}
return retval;
}
bool parse(std::string input, const char *fname) {
input_pos = input.begin();
input_end = input.end();
line = 1; col = 1;
filename = fname;
if (Statements()) {
if (input_pos != input_end) {
throw Parse_Error("Unparsed input", File_Position(line, col), fname);
}
else {
build_match(Token_Type::File, 0);
return true;
}
}
else {
return false;
}
}
};
}
#endif /* CHAISCRIPT_PARSER_HPP_ */
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