namespace GL {
namespace SL {
-Formatter::Formatter():
- stage(0),
- source_index(0),
- source_line(1),
- indent(0),
- parameter_list(false),
- omit_builtin(false)
-{ }
-
-const string &Formatter::apply(Stage &s)
+string Formatter::apply(Stage &s)
{
stage = &s;
omit_builtin = true;
if(ver)
{
append(format("#version %d%02d", ver.major, ver.minor));
- if(s.required_features.gl_api==OPENGL_ES2 && ver>=Version(3, 0))
+ if(s.required_features.target_api==OPENGL_ES && ver>=Version(3, 0))
append(" es");
formatted += '\n';
}
+ if(s.required_features.arb_enhanced_layouts)
+ append("#extension GL_ARB_enhanced_layouts: require\n");
if(s.required_features.arb_explicit_attrib_location)
- append("#extension arb_explicit_attrib_location: require\n");
+ append("#extension GL_ARB_explicit_attrib_location: require\n");
+ if(s.required_features.arb_explicit_uniform_location)
+ append("#extension GL_ARB_explicit_uniform_location: require\n");
if(s.required_features.arb_gpu_shader5)
- append("#extension arb_gpu_shader5: require\n");
+ append("#extension GL_ARB_gpu_shader5: require\n");
+ if(s.required_features.arb_separate_shader_objects)
+ append("#extension GL_ARB_separate_shader_objects: require\n");
if(s.required_features.arb_uniform_buffer_object)
- append("#extension arb_uniform_buffer_object: require\n");
+ append("#extension GL_ARB_uniform_buffer_object: require\n");
if(s.required_features.ext_gpu_shader4)
- append("#extension ext_gpu_shader4: require\n");
+ append("#extension GL_EXT_gpu_shader4: require\n");
if(s.required_features.ext_texture_array)
- append("#extension ext_texture_array: require\n");
+ append("#extension GL_EXT_texture_array: require\n");
formatted += '\n';
s.content.visit(*this);
void Formatter::append(const string &text)
{
formatted += text;
- for(string::const_iterator i=text.begin(); i!=text.end(); ++i)
- if(*i=='\n')
+ for(char c: text)
+ if(c=='\n')
++source_line;
}
SetForScope<unsigned> set(indent, indent+(indent>0 || use_braces));
string spaces(indent*2, ' ');
bool first = true;
- for(NodeList<Statement>::iterator i=block.body.begin(); i!=block.body.end(); ++i)
+ for(const RefPtr<Statement> &s: block.body)
{
- if(omit_builtin && (*i)->source<=BUILTIN_SOURCE)
+ if(omit_builtin && s->source<=BUILTIN_SOURCE)
continue;
if(!first)
append('\n');
first = false;
- set_source((*i)->source, (*i)->line);
+ set_source(s->source, s->line);
append(spaces);
- (*i)->visit(*this);
+ s->visit(*this);
}
if(use_braces)
append(format("\n%s}", string(brace_indent*2, ' ')));
}
-void Formatter::visit(Literal &literal)
+void Formatter::visit_expression(Expression &expr, const Operator *outer_oper, bool on_rhs)
{
- append(literal.token);
-}
+ unsigned outer_precedence = (outer_oper ? outer_oper->precedence : 20);
+ unsigned inner_precedence = (expr.oper ? expr.oper->precedence : 0);
-void Formatter::visit(ParenthesizedExpression &parexpr)
-{
- append('(');
- parexpr.expression->visit(*this);
- append(')');
+ bool needs_parentheses = (inner_precedence>=outer_precedence);
+
+ // Omit parentheses if the outer operator encloses this operand.
+ if(outer_oper && outer_oper->type==Operator::BINARY && outer_oper->token2[0] && on_rhs)
+ needs_parentheses = false;
+
+ if(expr.oper)
+ {
+ /* Omit parentheses if the inner expression's operator sits between the
+ expression and the outer operator. */
+ bool oper_on_left = expr.oper->type==Operator::PREFIX;
+ bool oper_on_right = expr.oper->type==Operator::POSTFIX || (expr.oper->type==Operator::BINARY && expr.oper->token2[0]);
+ if(expr.oper && ((oper_on_left && on_rhs) || (oper_on_right && !on_rhs)))
+ needs_parentheses = false;
+
+ // Omit parentheses if the operator's natural grouping works out.
+ if(expr.oper==outer_oper)
+ needs_parentheses = (expr.oper->assoc!=Operator::ASSOCIATIVE && on_rhs!=(expr.oper->assoc==Operator::RIGHT_TO_LEFT));
+ }
+
+ if(needs_parentheses)
+ append('(');
+ expr.visit(*this);
+ if(needs_parentheses)
+ append(')');
}
-void Formatter::visit(VariableReference &var)
+void Formatter::visit(Literal &literal)
{
- append(var.name);
+ append(literal.token);
}
-void Formatter::visit(InterfaceBlockReference &iface)
+void Formatter::visit(VariableReference &var)
{
- append(iface.name);
+ r_empty_name = var.name.find(' ')!=string::npos;
+ if(!r_empty_name)
+ append(var.name);
}
void Formatter::visit(MemberAccess &memacc)
{
- memacc.left->visit(*this);
- append(format(".%s", memacc.member));
+ visit_expression(*memacc.left, memacc.oper, false);
+ if(!r_empty_name)
+ append('.');
+ append(memacc.member);
+ r_empty_name = false;
}
void Formatter::visit(Swizzle &swizzle)
{
- swizzle.left->visit(*this);
+ visit_expression(*swizzle.left, swizzle.oper, false);
append(format(".%s", swizzle.component_group));
}
{
if(unary.oper->type==Operator::PREFIX)
append(unary.oper->token);
- unary.expression->visit(*this);
+ visit_expression(*unary.expression, unary.oper, unary.oper->type==Operator::PREFIX);
if(unary.oper->type==Operator::POSTFIX)
append(unary.oper->token);
}
void Formatter::visit(BinaryExpression &binary)
{
- binary.left->visit(*this);
+ visit_expression(*binary.left, binary.oper, false);
append(binary.oper->token);
- binary.right->visit(*this);
+ visit_expression(*binary.right, binary.oper, true);
if(binary.oper->token2[0])
append(binary.oper->token2);
}
void Formatter::visit(Assignment &assign)
{
- assign.left->visit(*this);
+ visit_expression(*assign.left, assign.oper, false);
append(format(" %s ", assign.oper->token));
- assign.right->visit(*this);
+ visit_expression(*assign.right, assign.oper, true);
}
void Formatter::visit(TernaryExpression &ternary)
{
- ternary.condition->visit(*this);
+ visit_expression(*ternary.condition, ternary.oper, false);
append(ternary.oper->token);
- ternary.true_expr->visit(*this);
- if(ternary.oper->token2)
+ visit_expression(*ternary.true_expr, ternary.oper, false);
+ if(ternary.oper->token2[0])
append(ternary.oper->token2);
- ternary.false_expr->visit(*this);
+ visit_expression(*ternary.false_expr, ternary.oper, true);
}
void Formatter::visit(FunctionCall &call)
{
append(format("%s(", call.name));
- for(NodeArray<Expression>::iterator i=call.arguments.begin(); i!=call.arguments.end(); ++i)
+ for(auto i=call.arguments.begin(); i!=call.arguments.end(); ++i)
{
if(i!=call.arguments.begin())
append(", ");
void Formatter::visit(Layout &layout)
{
append("layout(");
- for(vector<Layout::Qualifier>::const_iterator i=layout.qualifiers.begin(); i!=layout.qualifiers.end(); ++i)
+ for(auto i=layout.qualifiers.begin(); i!=layout.qualifiers.end(); ++i)
{
if(i!=layout.qualifiers.begin())
append(", ");
void Formatter::visit(StructDeclaration &strct)
{
+ if(!strct.block_name.empty())
+ return;
+
append(format("struct %s\n", strct.name));
strct.members.visit(*this);
append(';');
}
if(!var.precision.empty())
append(format("%s ", var.precision));
- string type_name = var.type_declaration->name;
- if(var.array)
- type_name = type_name.substr(0, type_name.find('['));
- append(format("%s %s", type_name, var.name));
+
+ if(var.block_declaration)
+ {
+ append(format("%s\n", var.block_declaration->block_name));
+ var.block_declaration->members.visit(*this);
+ if(var.name.find(' ')==string::npos)
+ append(format(" %s", var.name));
+ }
+ else
+ {
+ string type_name = var.type_declaration->name;
+ if(var.array)
+ type_name = type_name.substr(0, type_name.find('['));
+ append(format("%s %s", type_name, var.name));
+ }
+
if(var.array)
{
append('[');
append(';');
}
-void Formatter::visit(InterfaceBlock &iface)
-{
- append(format("%s %s\n", iface.interface, iface.name));
- if(iface.struct_declaration)
- iface.struct_declaration->members.visit(*this);
- if(!iface.instance_name.empty())
- {
- append(' ');
- append(iface.instance_name);
- if(iface.array)
- append("[]");
- }
- append(';');
-}
-
void Formatter::visit(FunctionDeclaration &func)
{
append(format("%s %s(", func.return_type_declaration->name, func.name));
- for(NodeArray<VariableDeclaration>::iterator i=func.parameters.begin(); i!=func.parameters.end(); ++i)
+ for(auto i=func.parameters.begin(); i!=func.parameters.end(); ++i)
{
if(i!=func.parameters.begin())
append(", ");