#include <msp/strings/format.h>
#include <msp/strings/regex.h>
#include <msp/strings/utils.h>
+#include "builtin.h"
#include "glsl_error.h"
#include "parser.h"
{
delete module;
module = new Module;
+
cur_stage = &module->shared;
base_index = index;
source_index = index;
if(index>=0)
source_reference(1, name);
+
+ // TODO Need to somehow get type names from imports
+ if(const Stage *builtin = get_builtins(Stage::SHARED))
+ {
+ for(map<string, TypeDeclaration *>::const_iterator i=builtin->types.begin(); i!=builtin->types.end(); ++i)
+ declared_types.insert(i->first);
+ }
+ else
+ {
+ declared_types.insert("void");
+ declared_types.insert("bool");
+ declared_types.insert("int");
+ declared_types.insert("float");
+ }
+
tokenizer.begin(source, name);
allow_stage_change = true;
while(!tokenizer.peek_token().empty())
is_precision_qualifier(token));
}
-bool Parser::is_builtin_type(const string &token)
-{
- static Regex re("^(void|float|int|bool|[ib]?vec[234]|mat[234](x[234])?|sampler((1D|2D|Cube)(Array)?(Shadow)?|3D))$");
- return re.match(token);
-}
-
bool Parser::is_type(const string &token)
{
- return is_builtin_type(token) || declared_types.count(token);
+ return declared_types.count(token);
}
bool Parser::is_identifier(const string &token)
return var;
}
}
+ else if(token=="typedef")
+ return parse_type_declaration();
else if(token=="struct")
return parse_struct_declaration();
else if(is_interface_qualifier(token))
}
else if(is_qualifier(token))
return parse_variable_declaration();
+ else if(token=="virtual")
+ return parse_function_declaration();
else if(is_type(token))
{
if(tokenizer.peek_token(2)=="(")
if(!is_precision_qualifier(precision->precision))
throw parse_error(tokenizer.get_location(), precision->precision, "a precision qualifier");
- precision->type = tokenizer.parse_token();
- // Not entirely accurate; only float, int and sampler types are allowed
- if(!is_builtin_type(precision->type))
- throw parse_error(tokenizer.get_location(), precision->type, "a builtin type");
+ // TODO Add validation for this
+ precision->type = expect_type();
tokenizer.expect(";");
tokenizer.expect("}");
}
-RefPtr<Expression> Parser::parse_expression(unsigned precedence)
+RefPtr<Expression> Parser::parse_expression(const Operator *outer_oper)
{
+ unsigned outer_precedence = (outer_oper ? outer_oper->precedence+(outer_oper->assoc==Operator::RIGHT_TO_LEFT) : 20);
RefPtr<Expression> left;
VariableReference *left_var = 0;
while(1)
if(token==i->token && (!left || i->type!=Operator::PREFIX) && (left || i->type!=Operator::POSTFIX))
oper = i;
- if(token==";" || token==")" || token=="]" || token=="," || (oper && precedence && oper->precedence>=precedence))
+ bool lower_precedence = (oper && oper->type!=Operator::PREFIX && oper->precedence>=outer_precedence);
+ if(token==";" || token==")" || token=="]" || token=="," || token==":" || lower_precedence)
{
if(left)
return left;
}
else if(oper && oper->type==Operator::BINARY)
left = parse_binary(left, *oper);
+ else if(oper && oper->type==Operator::TERNARY)
+ left = parse_ternary(left, *oper);
else
throw parse_error(tokenizer.get_location(), token, "an operator");
left_var = 0;
left = parexpr;
}
else if(isdigit(token[0]) || token=="true" || token=="false")
- {
- RefPtr<Literal> literal = new Literal;
- literal->token = tokenizer.parse_token();
- left = literal;
- }
+ left = parse_literal();
else if(is_identifier(token))
{
RefPtr<VariableReference> var = create_node<VariableReference>();
RefPtr<UnaryExpression> unary = create_node<UnaryExpression>();
unary->oper = oper;
tokenizer.parse_token();
- unary->expression = parse_expression(oper->precedence);
+ unary->expression = parse_expression(oper);
left = unary;
}
else
}
}
+RefPtr<Literal> Parser::parse_literal()
+{
+ RefPtr<Literal> literal = create_node<Literal>();
+ literal->token = tokenizer.parse_token();
+ if(isdigit(literal->token[0]))
+ {
+ // TODO have the tokenizer return the type of the token
+ if(isnumrc(literal->token))
+ literal->value = lexical_cast<int>(literal->token);
+ else
+ literal->value = lexical_cast<float>(literal->token);
+ }
+ else if(literal->token=="true" || literal->token=="false")
+ literal->value = (literal->token=="true");
+ else
+ throw parse_error(tokenizer.get_location(), literal->token, "a literal");
+
+ return literal;
+}
+
RefPtr<BinaryExpression> Parser::parse_binary(const RefPtr<Expression> &left, const Operator &oper)
{
RefPtr<BinaryExpression> binary = (oper.precedence==16 ?
tokenizer.expect("]");
}
else
- binary->right = parse_expression(oper.precedence+(oper.assoc==Operator::RIGHT_TO_LEFT));
+ binary->right = parse_expression(&oper);
return binary;
}
+RefPtr<TernaryExpression> Parser::parse_ternary(const RefPtr<Expression> &cond, const Operator &oper)
+{
+ RefPtr<TernaryExpression> ternary = create_node<TernaryExpression>();
+ ternary->condition = cond;
+ ternary->oper = &oper;
+ tokenizer.expect("?");
+ ternary->true_expr = parse_expression(&oper);
+ tokenizer.expect(":");
+ ternary->false_expr = parse_expression(&oper);
+ return ternary;
+}
+
RefPtr<FunctionCall> Parser::parse_function_call(const VariableReference &var)
{
RefPtr<FunctionCall> call = create_node<FunctionCall>();
return call;
}
+RefPtr<TypeDeclaration> Parser::parse_type_declaration()
+{
+ tokenizer.expect("typedef");
+
+ RefPtr<TypeDeclaration> type;
+ if(tokenizer.peek_token()=="image")
+ type = parse_image_type_declaration();
+ else
+ type = parse_basic_type_declaration();
+
+ tokenizer.expect(";");
+ declared_types.insert(type->name);
+ return type;
+}
+
+RefPtr<BasicTypeDeclaration> Parser::parse_basic_type_declaration()
+{
+ RefPtr<BasicTypeDeclaration> type = create_node<BasicTypeDeclaration>();
+
+ if(tokenizer.peek_token()=="vector")
+ {
+ type->kind = BasicTypeDeclaration::VECTOR;
+
+ tokenizer.parse_token();
+ tokenizer.expect("(");
+ type->size = expect_integer();
+ tokenizer.expect(")");
+ }
+
+ type->base = expect_type();
+ type->name = expect_identifier();
+
+ if(type->kind==BasicTypeDeclaration::ALIAS && check("["))
+ {
+ type->kind = BasicTypeDeclaration::ARRAY;
+ tokenizer.expect("]");
+ }
+
+ return type;
+}
+
+RefPtr<ImageTypeDeclaration> Parser::parse_image_type_declaration()
+{
+ tokenizer.expect("image");
+ tokenizer.expect("(");
+
+ RefPtr<ImageTypeDeclaration> type = create_node<ImageTypeDeclaration>();
+ while(1)
+ {
+ string token = tokenizer.parse_token();
+ if(token=="dimensions")
+ {
+ tokenizer.expect("=");
+ token = tokenizer.parse_token();
+ if(token=="1")
+ type->dimensions = ImageTypeDeclaration::ONE;
+ else if(token=="2")
+ type->dimensions = ImageTypeDeclaration::TWO;
+ else if(token=="3")
+ type->dimensions = ImageTypeDeclaration::THREE;
+ else if(token=="cube")
+ type->dimensions = ImageTypeDeclaration::CUBE;
+ else
+ throw parse_error(tokenizer.get_location(), token, "dimensions");
+
+ if(check("["))
+ {
+ type->array = true;
+ tokenizer.expect("]");
+ }
+ }
+ else if(token=="sampled")
+ type->sampled = true;
+ else if(token=="shadow")
+ type->shadow = true;
+ else
+ throw parse_error(tokenizer.get_location(), token, "image type attribute");
+
+ token = tokenizer.peek_token();
+ if(token==")")
+ break;
+
+ tokenizer.expect(",");
+ }
+ tokenizer.expect(")");
+
+ type->base = expect_type();
+ type->name = expect_identifier();
+
+ return type;
+}
+
RefPtr<StructDeclaration> Parser::parse_struct_declaration()
{
tokenizer.expect("struct");
{
RefPtr<FunctionDeclaration> func = create_node<FunctionDeclaration>();
+ func->virtua = check("virtual");
func->return_type = expect_type();
func->name = expect_identifier();
tokenizer.expect("(");
}
tokenizer.expect(")");
+ func->overrd = check("override");
+
string token = tokenizer.peek_token();
if(token=="{")
{
throw parse_error(tokenizer.get_location(), iface->interface, "an interface qualifier");
iface->name = expect_identifier();
- parse_block(iface->members, true, &Parser::parse_variable_declaration_with_layout);
+ iface->members = new Block;
+ parse_block(*iface->members, true, &Parser::parse_variable_declaration_with_layout);
if(!check(";"))
{
iface->instance_name = expect_identifier();
projects / libs / gl.git / blobdiff