-#include <algorithm>
+#include <msp/core/algorithm.h>
#include <msp/core/hash.h>
#include <msp/core/raii.h>
-#include <msp/strings/lexicalcast.h>
-#include <msp/strings/utils.h>
-#include "builtin.h"
#include "generate.h"
using namespace std;
namespace GL {
namespace SL {
-ConstantSpecializer::ConstantSpecializer():
- values(0)
-{ }
-
-void ConstantSpecializer::apply(Stage &stage, const map<string, int> *v)
-{
- values = v;
- stage.content.visit(*this);
-}
-
-void ConstantSpecializer::visit(VariableDeclaration &var)
-{
- bool specializable = false;
- if(var.layout)
- {
- vector<Layout::Qualifier> &qualifiers = var.layout->qualifiers;
- for(vector<Layout::Qualifier>::iterator i=qualifiers.begin(); i!=qualifiers.end(); ++i)
- if(i->name=="constant_id")
- {
- specializable = true;
- if(values)
- qualifiers.erase(i);
- else if(i->value==-1)
- i->value = hash32(var.name)&0x7FFFFFFF;
- break;
- }
-
- if(qualifiers.empty())
- var.layout = 0;
- }
-
- if(specializable && values)
- {
- map<string, int>::const_iterator i = values->find(var.name);
- if(i!=values->end())
- {
- RefPtr<Literal> literal = new Literal;
- if(var.type=="bool")
- {
- literal->token = (i->second ? "true" : "false");
- literal->value = static_cast<bool>(i->second);
- }
- else if(var.type=="int")
- {
- literal->token = lexical_cast<string>(i->second);
- literal->value = i->second;
- }
- var.init_expression = literal;
- }
- }
-}
-
-
-void BlockHierarchyResolver::enter(Block &block)
-{
- r_any_resolved |= (current_block!=block.parent);
- block.parent = current_block;
-}
-
-
-TypeResolver::TypeResolver():
- stage(0),
- iface_block(0),
- r_any_resolved(false)
-{ }
-
-bool TypeResolver::apply(Stage &s)
-{
- stage = &s;
- s.types.clear();
- r_any_resolved = false;
- s.content.visit(*this);
- return r_any_resolved;
-}
-
-TypeDeclaration *TypeResolver::get_or_create_array_type(TypeDeclaration &type)
-{
- map<TypeDeclaration *, TypeDeclaration *>::iterator i = array_types.find(&type);
- if(i!=array_types.end())
- return i->second;
-
- BasicTypeDeclaration *array = new BasicTypeDeclaration;
- array->source = BUILTIN_SOURCE;
- array->name = type.name+"[]";
- array->kind = BasicTypeDeclaration::ARRAY;
- array->base = type.name;
- array->base_type = &type;
- stage->content.body.insert(type_insert_point, array);
- array_types[&type] = array;
- return array;
-}
-
-void TypeResolver::resolve_type(TypeDeclaration *&type, const string &name, bool array)
-{
- TypeDeclaration *resolved = 0;
- map<string, TypeDeclaration *>::iterator i = stage->types.find(name);
- if(i!=stage->types.end())
- {
- map<TypeDeclaration *, TypeDeclaration *>::iterator j = alias_map.find(i->second);
- resolved = (j!=alias_map.end() ? j->second : i->second);
- }
-
- if(resolved && array)
- resolved = get_or_create_array_type(*resolved);
-
- r_any_resolved |= (resolved!=type);
- type=resolved;
-}
-
-void TypeResolver::visit(Block &block)
-{
- for(NodeList<Statement>::iterator i=block.body.begin(); i!=block.body.end(); ++i)
- {
- if(!block.parent)
- type_insert_point = i;
- (*i)->visit(*this);
- }
-}
-
-void TypeResolver::visit(BasicTypeDeclaration &type)
-{
- resolve_type(type.base_type, type.base, false);
-
- if(type.kind==BasicTypeDeclaration::VECTOR && type.base_type)
- if(BasicTypeDeclaration *basic_base = dynamic_cast<BasicTypeDeclaration *>(type.base_type))
- if(basic_base->kind==BasicTypeDeclaration::VECTOR)
- {
- type.kind = BasicTypeDeclaration::MATRIX;
- /* A matrix's base type is its column vector type. This will put
- the column vector's size, i.e. the matrix's row count, in the high
- half of the size. */
- type.size |= basic_base->size<<16;
- }
-
- if(type.kind==BasicTypeDeclaration::ALIAS && type.base_type)
- alias_map[&type] = type.base_type;
- else if(type.kind==BasicTypeDeclaration::ARRAY && type.base_type)
- array_types[type.base_type] = &type;
-
- stage->types.insert(make_pair(type.name, &type));
-}
-
-void TypeResolver::visit(ImageTypeDeclaration &type)
-{
- resolve_type(type.base_type, type.base, false);
- stage->types.insert(make_pair(type.name, &type));
-}
-
-void TypeResolver::visit(StructDeclaration &strct)
-{
- stage->types.insert(make_pair(strct.name, &strct));
- TraversingVisitor::visit(strct);
-}
-
-void TypeResolver::visit(VariableDeclaration &var)
-{
- resolve_type(var.type_declaration, var.type, var.array);
- if(iface_block && var.interface==iface_block->interface)
- var.interface.clear();
-}
-
-void TypeResolver::visit(InterfaceBlock &iface)
-{
- if(iface.members)
- {
- SetForScope<InterfaceBlock *> set_iface(iface_block, &iface);
- iface.members->visit(*this);
-
- StructDeclaration *strct = new StructDeclaration;
- strct->source = INTERNAL_SOURCE;
- strct->name = format("_%s_%s", iface.interface, iface.name);
- strct->members.body.splice(strct->members.body.begin(), iface.members->body);
- stage->content.body.insert(type_insert_point, strct);
- stage->types.insert(make_pair(strct->name, strct));
-
- iface.members = 0;
- strct->interface_block = &iface;
- iface.struct_declaration = strct;
- }
-
- TypeDeclaration *type = iface.struct_declaration;
- if(type && iface.array)
- type = get_or_create_array_type(*type);
- r_any_resolved = (type!=iface.type_declaration);
- iface.type_declaration = type;
-}
-
-void TypeResolver::visit(FunctionDeclaration &func)
-{
- resolve_type(func.return_type_declaration, func.return_type, false);
- TraversingVisitor::visit(func);
-}
-
-
-VariableResolver::VariableResolver():
- stage(0),
- r_any_resolved(false),
- record_target(false),
- r_self_referencing(false)
-{ }
-
-bool VariableResolver::apply(Stage &s)
-{
- stage = &s;
- s.interface_blocks.clear();
- r_any_resolved = false;
- s.content.visit(*this);
- for(vector<VariableDeclaration *>::const_iterator i=redeclared_builtins.begin(); i!=redeclared_builtins.end(); ++i)
- (*i)->source = GENERATED_SOURCE;
- NodeRemover().apply(s, nodes_to_remove);
- return r_any_resolved;
-}
-
-void VariableResolver::enter(Block &block)
+void ConstantIdAssigner::apply(Module &module, const Features &features)
{
- block.variables.clear();
-}
-
-void VariableResolver::visit(RefPtr<Expression> &expr)
-{
- r_replacement_expr = 0;
- expr->visit(*this);
- if(r_replacement_expr)
- {
- expr = r_replacement_expr;
- /* Don't record assignment target when doing a replacement, because chain
- information won't be correct. */
- r_assignment_target.declaration = 0;
- r_any_resolved = true;
- }
- r_replacement_expr = 0;
-}
+ for(Stage &s: module.stages)
+ s.content.visit(*this);
-void VariableResolver::check_assignment_target(Statement *declaration)
-{
- if(record_target)
+ for(VariableDeclaration *v: auto_constants)
{
- if(r_assignment_target.declaration)
- {
- /* More than one reference found in assignment target. Unable to
- determine what the primary target is. */
- record_target = false;
- r_assignment_target.declaration = 0;
- }
- else
- r_assignment_target.declaration = declaration;
- }
- // TODO This check is overly broad and may prevent some optimizations.
- else if(declaration && declaration==r_assignment_target.declaration)
- r_self_referencing = true;
-}
-
-void VariableResolver::visit(VariableReference &var)
-{
- VariableDeclaration *declaration = 0;
-
- /* Look for variable declarations in the block hierarchy first. Interface
- blocks are always defined in the top level so we can't accidentally skip
- one. */
- for(Block *block=current_block; (!declaration && block); block=block->parent)
- {
- map<string, VariableDeclaration *>::iterator i = block->variables.find(var.name);
- if(i!=block->variables.end())
- declaration = i->second;
- }
-
- if(!declaration)
- {
- const map<string, InterfaceBlock *> &blocks = stage->interface_blocks;
- map<string, InterfaceBlock *>::const_iterator i = blocks.find("_"+var.name);
- if(i!=blocks.end())
- {
- /* The name refers to an interface block with an instance name rather
- than a variable. Prepare a new syntax tree node accordingly. */
- InterfaceBlockReference *iface_ref = new InterfaceBlockReference;
- iface_ref->source = var.source;
- iface_ref->line = var.line;
- iface_ref->name = var.name;
- iface_ref->declaration = i->second;
- r_replacement_expr = iface_ref;
- }
+ unsigned id;
+ auto j = existing_constants.find(v->name);
+ if(j!=existing_constants.end())
+ id = j->second;
else
{
- // Look for the variable in anonymous interface blocks.
- for(i=blocks.begin(); (!declaration && i!=blocks.end()); ++i)
- if(i->second->instance_name.empty() && i->second->struct_declaration)
- {
- const map<string, VariableDeclaration *> &iface_vars = i->second->struct_declaration->members.variables;
- map<string, VariableDeclaration *>::const_iterator j = iface_vars.find(var.name);
- if(j!=iface_vars.end())
- declaration = j->second;
- }
- }
- }
-
- r_any_resolved |= (declaration!=var.declaration);
- var.declaration = declaration;
-
- check_assignment_target(var.declaration);
-}
-
-void VariableResolver::visit(InterfaceBlockReference &iface)
-{
- map<string, InterfaceBlock *>::iterator i = stage->interface_blocks.find("_"+iface.name);
- InterfaceBlock *declaration = (i!=stage->interface_blocks.end() ? i->second : 0);
- r_any_resolved |= (declaration!=iface.declaration);
- iface.declaration = declaration;
-
- check_assignment_target(iface.declaration);
-}
-
-void VariableResolver::add_to_chain(Assignment::Target::ChainType type, unsigned index)
-{
- if(r_assignment_target.chain_len<7)
- r_assignment_target.chain[r_assignment_target.chain_len] = type | min<unsigned>(index, 0x3F);
- ++r_assignment_target.chain_len;
-}
-
-void VariableResolver::visit(MemberAccess &memacc)
-{
- TraversingVisitor::visit(memacc);
-
- VariableDeclaration *declaration = 0;
- if(StructDeclaration *strct = dynamic_cast<StructDeclaration *>(memacc.left->type))
- {
- map<string, VariableDeclaration *>::iterator i = strct->members.variables.find(memacc.member);
- if(i!=strct->members.variables.end())
- {
- declaration = i->second;
-
- if(record_target)
- {
- unsigned index = 0;
- for(NodeList<Statement>::const_iterator j=strct->members.body.begin(); (j!=strct->members.body.end() && j->get()!=i->second); ++j)
- ++index;
-
- add_to_chain(Assignment::Target::MEMBER, index);
- }
- }
- }
- else if(BasicTypeDeclaration *basic = dynamic_cast<BasicTypeDeclaration *>(memacc.left->type))
- {
- bool scalar_swizzle = ((basic->kind==BasicTypeDeclaration::INT || basic->kind==BasicTypeDeclaration::FLOAT) && memacc.member.size()==1);
- bool vector_swizzle = (basic->kind==BasicTypeDeclaration::VECTOR && memacc.member.size()<=4);
- if(scalar_swizzle || vector_swizzle)
- {
- static const char component_names[] = { 'x', 'r', 's', 'y', 'g', 't', 'z', 'b', 'p', 'w', 'a', 'q' };
-
- bool ok = true;
- UInt8 components[4] = { };
- for(unsigned i=0; (ok && i<memacc.member.size()); ++i)
- ok = ((components[i] = (find(component_names, component_names+12, memacc.member[i])-component_names)/3) < 4);
-
- if(ok)
- {
- Swizzle *swizzle = new Swizzle;
- swizzle->source = memacc.source;
- swizzle->line = memacc.line;
- swizzle->oper = memacc.oper;
- swizzle->left = memacc.left;
- swizzle->component_group = memacc.member;
- swizzle->count = memacc.member.size();
- copy(components, components+memacc.member.size(), swizzle->components);
- r_replacement_expr = swizzle;
- }
+ id = hash<32>(v->name)%features.constant_id_range;
+ while(used_ids.count(id))
+ id = (id+1)%features.constant_id_range;
}
- }
-
- r_any_resolved |= (declaration!=memacc.declaration);
- memacc.declaration = declaration;
-}
-void VariableResolver::visit(Swizzle &swizzle)
-{
- TraversingVisitor::visit(swizzle);
+ auto i = find_member(v->layout->qualifiers, string("constant_id"), &Layout::Qualifier::name);
+ if(i!=v->layout->qualifiers.end())
+ i->value = id;
- if(record_target)
- {
- unsigned mask = 0;
- for(unsigned i=0; i<swizzle.count; ++i)
- mask |= 1<<swizzle.components[i];
- add_to_chain(Assignment::Target::SWIZZLE, mask);
+ used_ids.insert(id);
+ existing_constants[v->name] = id;
}
}
-void VariableResolver::visit(BinaryExpression &binary)
+void ConstantIdAssigner::visit(VariableDeclaration &var)
{
- if(binary.oper->token[0]=='[')
+ if(var.layout)
{
+ auto i = find_member(var.layout->qualifiers, string("constant_id"), &Layout::Qualifier::name);
+ if(i!=var.layout->qualifiers.end() && i->has_value)
{
- /* The subscript expression is not a part of the primary assignment
- target. */
- SetFlag set(record_target, false);
- visit(binary.right);
- }
- visit(binary.left);
-
- if(record_target)
- {
- unsigned index = 0x3F;
- if(Literal *literal_subscript = dynamic_cast<Literal *>(binary.right.get()))
- if(literal_subscript->value.check_type<int>())
- index = literal_subscript->value.value<int>();
- add_to_chain(Assignment::Target::ARRAY, index);
- }
- }
- else
- TraversingVisitor::visit(binary);
-}
-
-void VariableResolver::visit(Assignment &assign)
-{
- {
- SetFlag set(record_target);
- r_assignment_target = Assignment::Target();
- visit(assign.left);
- r_any_resolved |= (r_assignment_target<assign.target || assign.target<r_assignment_target);
- assign.target = r_assignment_target;
- }
-
- r_self_referencing = false;
- visit(assign.right);
- assign.self_referencing = (r_self_referencing || assign.oper->token[0]!='=');
-}
-
-void VariableResolver::merge_layouts(Layout &to_layout, const Layout &from_layout)
-{
- for(vector<Layout::Qualifier>::const_iterator i=from_layout.qualifiers.begin(); i!=from_layout.qualifiers.end(); ++i)
- {
- bool found = false;
- for(vector<Layout::Qualifier>::iterator j=to_layout.qualifiers.begin(); (!found && j!=to_layout.qualifiers.end()); ++j)
- if(j->name==i->name)
+ if(i->value==-1)
+ auto_constants.push_back(&var);
+ else
{
- j->has_value = i->value;
- j->value = i->value;
- found = true;
+ existing_constants[var.name] = i->value;
+ used_ids.insert(i->value);
}
-
- if(!found)
- to_layout.qualifiers.push_back(*i);
- }
-}
-
-void VariableResolver::visit(VariableDeclaration &var)
-{
- TraversingVisitor::visit(var);
- VariableDeclaration *&ptr = current_block->variables[var.name];
- if(!ptr)
- ptr = &var;
- else if(!current_block->parent && ptr->interface==var.interface && ptr->type==var.type)
- {
- if(ptr->source==BUILTIN_SOURCE)
- redeclared_builtins.push_back(&var);
- else
- stage->diagnostics.push_back(Diagnostic(Diagnostic::WARN, var.source, var.line,
- format("Redeclaring non-builtin variable '%s' is deprecated", var.name)));
-
- if(var.init_expression)
- ptr->init_expression = var.init_expression;
- if(var.layout)
- {
- if(ptr->layout)
- merge_layouts(*ptr->layout, *var.layout);
- else
- ptr->layout = var.layout;
- }
- nodes_to_remove.insert(&var);
-
- r_any_resolved = true;
- }
-}
-
-void VariableResolver::visit(InterfaceBlock &iface)
-{
- /* Block names can be reused in different interfaces. Prefix the name with
- the first character of the interface to avoid conflicts. */
- stage->interface_blocks.insert(make_pair(iface.interface+iface.name, &iface));
- if(!iface.instance_name.empty())
- stage->interface_blocks.insert(make_pair("_"+iface.instance_name, &iface));
-
- TraversingVisitor::visit(iface);
-}
-
-
-ExpressionResolver::ExpressionResolver():
- stage(0),
- r_any_resolved(false)
-{ }
-
-bool ExpressionResolver::apply(Stage &s)
-{
- stage = &s;
- r_any_resolved = false;
- s.content.visit(*this);
- return r_any_resolved;
-}
-
-bool ExpressionResolver::is_scalar(BasicTypeDeclaration &type)
-{
- return (type.kind==BasicTypeDeclaration::INT || type.kind==BasicTypeDeclaration::FLOAT);
-}
-
-bool ExpressionResolver::is_vector_or_matrix(BasicTypeDeclaration &type)
-{
- return (type.kind==BasicTypeDeclaration::VECTOR || type.kind==BasicTypeDeclaration::MATRIX);
-}
-
-BasicTypeDeclaration *ExpressionResolver::get_element_type(BasicTypeDeclaration &type)
-{
- if(is_vector_or_matrix(type) || type.kind==BasicTypeDeclaration::ARRAY)
- {
- BasicTypeDeclaration *basic_base = dynamic_cast<BasicTypeDeclaration *>(type.base_type);
- return (basic_base ? get_element_type(*basic_base) : 0);
- }
- else
- return &type;
-}
-
-bool ExpressionResolver::can_convert(BasicTypeDeclaration &from, BasicTypeDeclaration &to)
-{
- if(from.kind==BasicTypeDeclaration::INT && to.kind==BasicTypeDeclaration::FLOAT)
- return from.size<=to.size;
- else if(from.kind!=to.kind)
- return false;
- else if((from.kind==BasicTypeDeclaration::VECTOR || from.kind==BasicTypeDeclaration::MATRIX) && from.size==to.size)
- {
- BasicTypeDeclaration *from_base = dynamic_cast<BasicTypeDeclaration *>(from.base_type);
- BasicTypeDeclaration *to_base = dynamic_cast<BasicTypeDeclaration *>(to.base_type);
- return (from_base && to_base && can_convert(*from_base, *to_base));
- }
- else
- return false;
-}
-
-ExpressionResolver::Compatibility ExpressionResolver::get_compatibility(BasicTypeDeclaration &left, BasicTypeDeclaration &right)
-{
- if(&left==&right)
- return SAME_TYPE;
- else if(can_convert(left, right))
- return LEFT_CONVERTIBLE;
- else if(can_convert(right, left))
- return RIGHT_CONVERTIBLE;
- else
- return NOT_COMPATIBLE;
-}
-
-BasicTypeDeclaration *ExpressionResolver::find_type(BasicTypeDeclaration::Kind kind, unsigned size)
-{
- for(vector<BasicTypeDeclaration *>::const_iterator i=basic_types.begin(); i!=basic_types.end(); ++i)
- if((*i)->kind==kind && (*i)->size==size)
- return *i;
- return 0;
-}
-
-BasicTypeDeclaration *ExpressionResolver::find_type(BasicTypeDeclaration &elem_type, BasicTypeDeclaration::Kind kind, unsigned size)
-{
- for(vector<BasicTypeDeclaration *>::const_iterator i=basic_types.begin(); i!=basic_types.end(); ++i)
- if(get_element_type(**i)==&elem_type && (*i)->kind==kind && (*i)->size==size)
- return *i;
- return 0;
-}
-
-void ExpressionResolver::convert_to(RefPtr<Expression> &expr, BasicTypeDeclaration &type)
-{
- RefPtr<FunctionCall> call = new FunctionCall;
- call->name = type.name;
- call->constructor = true;
- call->arguments.push_back(0);
- call->arguments.back() = expr;
- call->type = &type;
- expr = call;
-}
-
-bool ExpressionResolver::convert_to_element(RefPtr<Expression> &expr, BasicTypeDeclaration &elem_type)
-{
- if(BasicTypeDeclaration *expr_basic = dynamic_cast<BasicTypeDeclaration *>(expr->type))
- {
- BasicTypeDeclaration *to_type = &elem_type;
- if(is_vector_or_matrix(*expr_basic))
- to_type = find_type(elem_type, expr_basic->kind, expr_basic->size);
- if(to_type)
- {
- convert_to(expr, *to_type);
- return true;
}
}
-
- return false;
-}
-
-void ExpressionResolver::resolve(Expression &expr, TypeDeclaration *type, bool lvalue)
-{
- r_any_resolved |= (type!=expr.type || lvalue!=expr.lvalue);
- expr.type = type;
- expr.lvalue = lvalue;
-}
-
-void ExpressionResolver::visit(Literal &literal)
-{
- if(literal.value.check_type<bool>())
- resolve(literal, find_type(BasicTypeDeclaration::BOOL, 1), false);
- else if(literal.value.check_type<int>())
- resolve(literal, find_type(BasicTypeDeclaration::INT, 32), false);
- else if(literal.value.check_type<float>())
- resolve(literal, find_type(BasicTypeDeclaration::FLOAT, 32), false);
}
-void ExpressionResolver::visit(VariableReference &var)
-{
- if(var.declaration)
- resolve(var, var.declaration->type_declaration, true);
-}
-
-void ExpressionResolver::visit(InterfaceBlockReference &iface)
-{
- if(iface.declaration)
- resolve(iface, iface.declaration->type_declaration, true);
-}
-
-void ExpressionResolver::visit(MemberAccess &memacc)
-{
- TraversingVisitor::visit(memacc);
-
- if(memacc.declaration)
- resolve(memacc, memacc.declaration->type_declaration, memacc.left->lvalue);
-}
-
-void ExpressionResolver::visit(Swizzle &swizzle)
-{
- TraversingVisitor::visit(swizzle);
-
- if(BasicTypeDeclaration *left_basic = dynamic_cast<BasicTypeDeclaration *>(swizzle.left->type))
- {
- BasicTypeDeclaration *left_elem = get_element_type(*left_basic);
- if(swizzle.count==1)
- resolve(swizzle, left_elem, swizzle.left->lvalue);
- else if(left_basic->kind==BasicTypeDeclaration::VECTOR && left_elem)
- resolve(swizzle, find_type(*left_elem, left_basic->kind, swizzle.count), swizzle.left->lvalue);
- }
-}
-
-void ExpressionResolver::visit(UnaryExpression &unary)
-{
- TraversingVisitor::visit(unary);
-
- BasicTypeDeclaration *basic = dynamic_cast<BasicTypeDeclaration *>(unary.expression->type);
- if(!basic)
- return;
-
- char oper = unary.oper->token[0];
- if(oper=='!')
- {
- if(basic->kind!=BasicTypeDeclaration::BOOL)
- return;
- }
- else if(oper=='~')
- {
- if(basic->kind!=BasicTypeDeclaration::INT)
- return;
- }
- else if(oper=='+' || oper=='-')
- {
- BasicTypeDeclaration *elem = get_element_type(*basic);
- if(!elem || !is_scalar(*elem))
- return;
- }
- resolve(unary, basic, unary.expression->lvalue);
-}
-
-void ExpressionResolver::visit(BinaryExpression &binary, bool assign)
-{
- /* Binary operators are only defined for basic types (not for image or
- structure types). */
- BasicTypeDeclaration *basic_left = dynamic_cast<BasicTypeDeclaration *>(binary.left->type);
- BasicTypeDeclaration *basic_right = dynamic_cast<BasicTypeDeclaration *>(binary.right->type);
- if(!basic_left || !basic_right)
- return;
-
- char oper = binary.oper->token[0];
- if(oper=='[')
- {
- /* Subscripting operates on vectors, matrices and arrays, and the right
- operand must be an integer. */
- if((!is_vector_or_matrix(*basic_left) && basic_left->kind!=BasicTypeDeclaration::ARRAY) || basic_right->kind!=BasicTypeDeclaration::INT)
- return;
-
- resolve(binary, basic_left->base_type, binary.left->lvalue);
- return;
- }
- else if(basic_left->kind==BasicTypeDeclaration::ARRAY || basic_right->kind==BasicTypeDeclaration::ARRAY)
- // No other binary operator can be used with arrays.
- return;
-
- BasicTypeDeclaration *elem_left = get_element_type(*basic_left);
- BasicTypeDeclaration *elem_right = get_element_type(*basic_right);
- if(!elem_left || !elem_right)
- return;
-
- Compatibility compat = get_compatibility(*basic_left, *basic_right);
- Compatibility elem_compat = get_compatibility(*elem_left, *elem_right);
- if(elem_compat==NOT_COMPATIBLE)
- return;
- if(assign && (compat==LEFT_CONVERTIBLE || elem_compat==LEFT_CONVERTIBLE))
- return;
-
- TypeDeclaration *type = 0;
- char oper2 = binary.oper->token[1];
- if((oper=='<' && oper2!='<') || (oper=='>' && oper2!='>'))
- {
- /* Relational operators compare two scalar integer or floating-point
- values. */
- if(!is_scalar(*elem_left) || !is_scalar(*elem_right) || compat==NOT_COMPATIBLE)
- return;
-
- type = find_type(BasicTypeDeclaration::BOOL, 1);
- }
- else if((oper=='=' || oper=='!') && oper2=='=')
- {
- // Equality comparison can be done on any compatible types.
- if(compat==NOT_COMPATIBLE)
- return;
-
- type = find_type(BasicTypeDeclaration::BOOL, 1);
- }
- else if(oper2=='&' || oper2=='|' || oper2=='^')
- {
- // Logical operators can only be applied to booleans.
- if(basic_left->kind!=BasicTypeDeclaration::BOOL || basic_right->kind!=BasicTypeDeclaration::BOOL)
- return;
-
- type = basic_left;
- }
- else if((oper=='&' || oper=='|' || oper=='^' || oper=='%') && !oper2)
- {
- // Bitwise operators and modulo can only be applied to integers.
- if(basic_left->kind!=BasicTypeDeclaration::INT || basic_right->kind!=BasicTypeDeclaration::INT)
- return;
-
- type = (compat==LEFT_CONVERTIBLE ? basic_right : basic_left);
- }
- else if((oper=='<' || oper=='>') && oper2==oper)
- {
- // Shifts apply to integer scalars and vectors, with some restrictions.
- if(elem_left->kind!=BasicTypeDeclaration::INT || elem_right->kind!=BasicTypeDeclaration::INT)
- return;
- unsigned left_size = (basic_left->kind==BasicTypeDeclaration::INT ? 1 : basic_left->kind==BasicTypeDeclaration::VECTOR ? basic_left->size : 0);
- unsigned right_size = (basic_right->kind==BasicTypeDeclaration::INT ? 1 : basic_right->kind==BasicTypeDeclaration::VECTOR ? basic_right->size : 0);
- if(!left_size || (left_size==1 && right_size!=1) || (left_size>1 && right_size!=1 && right_size!=left_size))
- return;
-
- type = basic_left;
- // Don't perform conversion even if the operands are of different sizes.
- compat = SAME_TYPE;
- }
- else if(oper=='+' || oper=='-' || oper=='*' || oper=='/')
- {
- // Arithmetic operators require scalar elements.
- if(!is_scalar(*elem_left) || !is_scalar(*elem_right))
- return;
-
- if(oper=='*' && is_vector_or_matrix(*basic_left) && is_vector_or_matrix(*basic_right) &&
- (basic_left->kind==BasicTypeDeclaration::MATRIX || basic_right->kind==BasicTypeDeclaration::MATRIX))
- {
- /* Multiplication has special rules when at least one operand is a
- matrix and the other is a vector or a matrix. */
- unsigned left_columns = basic_left->size&0xFFFF;
- unsigned right_rows = basic_right->size;
- if(basic_right->kind==BasicTypeDeclaration::MATRIX)
- right_rows >>= 16;
- if(left_columns!=right_rows)
- return;
-
- BasicTypeDeclaration *elem_result = (elem_compat==LEFT_CONVERTIBLE ? elem_right : elem_left);
-
- if(basic_left->kind==BasicTypeDeclaration::VECTOR)
- type = find_type(*elem_result, BasicTypeDeclaration::VECTOR, basic_right->size&0xFFFF);
- else if(basic_right->kind==BasicTypeDeclaration::VECTOR)
- type = find_type(*elem_result, BasicTypeDeclaration::VECTOR, basic_left->size>>16);
- else
- type = find_type(*elem_result, BasicTypeDeclaration::MATRIX, (basic_left->size&0xFFFF0000)|(basic_right->size&0xFFFF));
- }
- else if(compat==NOT_COMPATIBLE)
- {
- // Arithmetic between scalars and matrices or vectors is supported.
- if(is_scalar(*basic_left) && is_vector_or_matrix(*basic_right))
- type = (elem_compat==RIGHT_CONVERTIBLE ? find_type(*elem_left, basic_right->kind, basic_right->size) : basic_right);
- else if(is_vector_or_matrix(*basic_left) && is_scalar(*basic_right))
- type = (elem_compat==LEFT_CONVERTIBLE ? find_type(*elem_right, basic_left->kind, basic_left->size) : basic_left);
- else
- return;
- }
- else if(compat==LEFT_CONVERTIBLE)
- type = basic_right;
- else
- type = basic_left;
- }
- else
- return;
-
- if(assign && type!=basic_left)
- return;
-
- bool converted = true;
- if(compat==LEFT_CONVERTIBLE)
- convert_to(binary.left, *basic_right);
- else if(compat==RIGHT_CONVERTIBLE)
- convert_to(binary.right, *basic_left);
- else if(elem_compat==LEFT_CONVERTIBLE)
- converted = convert_to_element(binary.left, *elem_right);
- else if(elem_compat==RIGHT_CONVERTIBLE)
- converted = convert_to_element(binary.right, *elem_left);
-
- if(!converted)
- type = 0;
-
- resolve(binary, type, assign);
-}
-
-void ExpressionResolver::visit(BinaryExpression &binary)
-{
- TraversingVisitor::visit(binary);
- visit(binary, false);
-}
-
-void ExpressionResolver::visit(Assignment &assign)
-{
- TraversingVisitor::visit(assign);
-
- if(assign.oper->token[0]!='=')
- return visit(assign, true);
- else if(assign.left->type!=assign.right->type)
- {
- BasicTypeDeclaration *basic_left = dynamic_cast<BasicTypeDeclaration *>(assign.left->type);
- BasicTypeDeclaration *basic_right = dynamic_cast<BasicTypeDeclaration *>(assign.right->type);
- if(!basic_left || !basic_right)
- return;
-
- Compatibility compat = get_compatibility(*basic_left, *basic_right);
- if(compat==RIGHT_CONVERTIBLE)
- convert_to(assign.right, *basic_left);
- else if(compat!=SAME_TYPE)
- return;
- }
-
- resolve(assign, assign.left->type, true);
-}
-
-void ExpressionResolver::visit(TernaryExpression &ternary)
-{
- TraversingVisitor::visit(ternary);
-
- BasicTypeDeclaration *basic_cond = dynamic_cast<BasicTypeDeclaration *>(ternary.condition->type);
- if(!basic_cond || basic_cond->kind!=BasicTypeDeclaration::BOOL)
- return;
-
- TypeDeclaration *type = 0;
- if(ternary.true_expr->type==ternary.false_expr->type)
- type = ternary.true_expr->type;
- else
- {
- BasicTypeDeclaration *basic_true = dynamic_cast<BasicTypeDeclaration *>(ternary.true_expr->type);
- BasicTypeDeclaration *basic_false = dynamic_cast<BasicTypeDeclaration *>(ternary.false_expr->type);
- Compatibility compat = get_compatibility(*basic_true, *basic_false);
- if(compat==NOT_COMPATIBLE)
- return;
-
- type = (compat==LEFT_CONVERTIBLE ? basic_true : basic_false);
-
- if(compat==LEFT_CONVERTIBLE)
- convert_to(ternary.true_expr, *basic_false);
- else if(compat==RIGHT_CONVERTIBLE)
- convert_to(ternary.false_expr, *basic_true);
- }
-
- resolve(ternary, type, false);
-}
-
-void ExpressionResolver::visit(FunctionCall &call)
-{
- TraversingVisitor::visit(call);
-
- TypeDeclaration *type = 0;
- if(call.declaration)
- type = call.declaration->return_type_declaration;
- else if(call.constructor)
- {
- map<string, TypeDeclaration *>::const_iterator i=stage->types.find(call.name);
- type = (i!=stage->types.end() ? i->second : 0);
- }
- resolve(call, type, false);
-}
-
-void ExpressionResolver::visit(BasicTypeDeclaration &type)
-{
- basic_types.push_back(&type);
-}
-
-void ExpressionResolver::visit(VariableDeclaration &var)
-{
- TraversingVisitor::visit(var);
- if(!var.init_expression)
- return;
-
- BasicTypeDeclaration *var_basic = dynamic_cast<BasicTypeDeclaration *>(var.type_declaration);
- BasicTypeDeclaration *init_basic = dynamic_cast<BasicTypeDeclaration *>(var.init_expression->type);
- if(!var_basic || !init_basic)
- return;
-
- Compatibility compat = get_compatibility(*var_basic, *init_basic);
- if(compat==RIGHT_CONVERTIBLE)
- convert_to(var.init_expression, *var_basic);
-}
-
-
-bool FunctionResolver::apply(Stage &s)
-{
- stage = &s;
- s.functions.clear();
- r_any_resolved = false;
- s.content.visit(*this);
- return r_any_resolved;
-}
-
-void FunctionResolver::visit(FunctionCall &call)
-{
- FunctionDeclaration *declaration = 0;
- if(stage->types.count(call.name))
- call.constructor = true;
- else
- {
- string arg_types;
- bool has_signature = true;
- for(NodeArray<Expression>::const_iterator i=call.arguments.begin(); (has_signature && i!=call.arguments.end()); ++i)
- {
- if((*i)->type)
- append(arg_types, ",", (*i)->type->name);
- else
- has_signature = false;
- }
-
- if(has_signature)
- {
- map<string, FunctionDeclaration *>::iterator i = stage->functions.find(format("%s(%s)", call.name, arg_types));
- declaration = (i!=stage->functions.end() ? i->second : 0);
- }
- }
-
- r_any_resolved |= (declaration!=call.declaration);
- call.declaration = declaration;
-
- TraversingVisitor::visit(call);
-}
-
-void FunctionResolver::visit(FunctionDeclaration &func)
-{
- if(func.signature.empty())
- {
- string param_types;
- for(NodeArray<VariableDeclaration>::const_iterator i=func.parameters.begin(); i!=func.parameters.end(); ++i)
- {
- if((*i)->type_declaration)
- append(param_types, ",", (*i)->type_declaration->name);
- else
- return;
- }
- func.signature = format("(%s)", param_types);
- r_any_resolved = true;
- }
-
- string key = func.name+func.signature;
- FunctionDeclaration *&stage_decl = stage->functions[key];
- vector<FunctionDeclaration *> &decls = declarations[key];
- if(func.definition==&func)
- {
- if(stage_decl && stage_decl->definition)
- {
- if(!func.overrd)
- stage->diagnostics.push_back(Diagnostic(Diagnostic::WARN, func.source, func.line,
- format("Overriding function '%s' without the override keyword is deprecated", key)));
- if(!stage_decl->definition->virtua)
- stage->diagnostics.push_back(Diagnostic(Diagnostic::WARN, func.source, func.line,
- format("Overriding function '%s' not declared as virtual is deprecated", key)));
- }
- stage_decl = &func;
-
- // Set all previous declarations to use this definition.
- for(vector<FunctionDeclaration *>::iterator i=decls.begin(); i!=decls.end(); ++i)
- {
- r_any_resolved |= (func.definition!=(*i)->definition);
- (*i)->definition = func.definition;
- (*i)->body.body.clear();
- }
- }
- else
- {
- FunctionDeclaration *definition = (stage_decl ? stage_decl->definition : 0);
- r_any_resolved |= (definition!=func.definition);
- func.definition = definition;
-
- if(!stage_decl)
- stage_decl = &func;
- }
- decls.push_back(&func);
-
- TraversingVisitor::visit(func);
-}
-
-
-InterfaceGenerator::InterfaceGenerator():
- stage(0),
- function_scope(false),
- copy_block(false),
- iface_target_block(0)
-{ }
string InterfaceGenerator::get_out_prefix(Stage::Type type)
{
void InterfaceGenerator::visit(Block &block)
{
SetForScope<Block *> set_block(current_block, &block);
- for(NodeList<Statement>::iterator i=block.body.begin(); i!=block.body.end(); ++i)
+ for(auto i=block.body.begin(); i!=block.body.end(); ++i)
{
assignment_insert_point = i;
if(&block==&stage->content)
if(stage->content.variables.count(name))
return 0;
- if(stage->type==Stage::GEOMETRY && !copy_block && var.interface=="out" && var.array)
+ if(stage->type==Stage::GEOMETRY && var.interface=="out" && var.array)
return 0;
VariableDeclaration* iface_var = new VariableDeclaration;
iface_var->interface = iface;
iface_var->type = var.type;
iface_var->name = name;
- /* Geometry shader inputs are always arrays. But if we're bringing in an
- entire block, the array is on the block and not individual variables. */
- if(stage->type==Stage::GEOMETRY && !copy_block)
+ // Geometry shader inputs are always arrays.
+ if(stage->type==Stage::GEOMETRY)
iface_var->array = ((var.array && var.interface!="in") || iface=="in");
else
iface_var->array = var.array;
var.linked_declaration = iface_var;
}
+ if(var.block_declaration)
+ {
+ StructDeclaration *iface_type = var.block_declaration->clone();
+ iface_type->name = format("_%s_%s", iface, var.block_declaration->block_name);
+ iface_target_block->body.insert(iface_insert_point, iface_type);
+
+ iface_var->type = iface_type->name;
+ if(name.empty())
+ iface_var->name = format("%s %s", iface, var.block_declaration->block_name);
+
+ stage->interface_blocks.insert(make_pair("in "+var.block_declaration->block_name, iface_var));
+ if(!name.empty())
+ stage->interface_blocks.insert(make_pair(name, iface_var));
+ }
+
iface_target_block->body.insert(iface_insert_point, iface_var);
iface_target_block->variables.insert(make_pair(name, iface_var));
if(iface_target_block==&stage->content && iface=="in")
return iface_var;
}
-InterfaceBlock *InterfaceGenerator::generate_interface(InterfaceBlock &out_block)
+ExpressionStatement &InterfaceGenerator::insert_assignment(const string &left, Expression *right)
{
- if(stage->interface_blocks.count("in"+out_block.name))
- return 0;
+ Assignment *assign = new Assignment;
- InterfaceBlock *in_block = new InterfaceBlock;
- in_block->interface = "in";
- in_block->name = out_block.name;
- in_block->members = new Block;
- in_block->instance_name = out_block.instance_name;
- if(stage->type==Stage::GEOMETRY)
- in_block->array = true;
- else
- in_block->array = out_block.array;
- in_block->linked_block = &out_block;
- out_block.linked_block = in_block;
+ string::size_type dot = left.find('.');
+ VariableReference *ref = new VariableReference;
+ ref->name = left.substr(0, dot);
+ assign->left = ref;
+ while(dot!=string::npos)
{
- SetFlag set_copy(copy_block, true);
- SetForScope<Block *> set_target(iface_target_block, in_block->members.get());
- SetForScope<NodeList<Statement>::iterator> set_ins_pt(iface_insert_point, in_block->members->body.end());
- if(out_block.struct_declaration)
- out_block.struct_declaration->members.visit(*this);
- else if(out_block.members)
- out_block.members->visit(*this);
- }
+ string::size_type start = dot+1;
+ dot = left.find('.', start);
- iface_target_block->body.insert(iface_insert_point, in_block);
- stage->interface_blocks.insert(make_pair("in"+in_block->name, in_block));
- if(!in_block->instance_name.empty())
- stage->interface_blocks.insert(make_pair("_"+in_block->instance_name, in_block));
-
- SetFlag set_scope(function_scope, false);
- SetForScope<Block *> set_block(current_block, &stage->content);
- in_block->visit(*this);
-
- return in_block;
-}
+ MemberAccess *memacc = new MemberAccess;
+ memacc->left = assign->left;
+ memacc->member = left.substr(start, dot-start);
+ assign->left = memacc;
+ }
-ExpressionStatement &InterfaceGenerator::insert_assignment(const string &left, Expression *right)
-{
- Assignment *assign = new Assignment;
- VariableReference *ref = new VariableReference;
- ref->name = left;
- assign->left = ref;
assign->oper = &Operator::get_operator("=", Operator::BINARY);
assign->right = right;
return;
const map<string, VariableDeclaration *> &prev_vars = stage->previous->content.variables;
- map<string, VariableDeclaration *>::const_iterator i = prev_vars.find(var.name);
+ auto i = prev_vars.find(var.name);
if(i==prev_vars.end() || i->second->interface!="out")
i = prev_vars.find(in_prefix+var.name);
if(i!=prev_vars.end() && i->second->interface=="out")
return;
}
- const map<string, InterfaceBlock *> &prev_blocks = stage->previous->interface_blocks;
- map<string, InterfaceBlock *>::const_iterator j = prev_blocks.find("_"+var.name);
- if(j!=prev_blocks.end() && j->second->interface=="out")
- {
- generate_interface(*j->second);
- /* Let VariableResolver convert the variable reference into an interface
- block reference. */
- return;
- }
-
- for(j=prev_blocks.begin(); j!=prev_blocks.end(); ++j)
- if(j->second->instance_name.empty() && j->second->struct_declaration)
+ for(const auto &kvp: stage->previous->interface_blocks)
+ if(kvp.second->name.find(' ')!=string::npos)
{
- const map<string, VariableDeclaration *> &iface_vars = j->second->struct_declaration->members.variables;
+ const map<string, VariableDeclaration *> &iface_vars = kvp.second->block_declaration->members.variables;
i = iface_vars.find(var.name);
if(i!=iface_vars.end())
{
- generate_interface(*j->second);
+ generate_interface(*kvp.second, "in", string());
return;
}
}
void InterfaceGenerator::visit(VariableDeclaration &var)
{
- if(copy_block)
- generate_interface(var, "in", var.name);
- else if(var.interface=="out")
+ if(var.interface=="out")
{
/* For output variables in function scope, generate a global interface
and replace the local declaration with an assignment. */
previous stage. */
if(!var.linked_declaration && stage->previous)
{
- const map<string, VariableDeclaration *> &prev_vars = stage->previous->content.variables;
- map<string, VariableDeclaration *>::const_iterator i = prev_vars.find(var.name);
- if(i!=prev_vars.end() && i->second->interface=="out")
+ const map<string, VariableDeclaration *> *prev_vars;
+ string name;
+ // Blocks are linked by their block name, not instance name
+ if(var.block_declaration)
{
- var.linked_declaration = i->second;
- i->second->linked_declaration = &var;
+ prev_vars = &stage->previous->interface_blocks;
+ name = "out "+var.block_declaration->block_name;
+ }
+ else
+ {
+ prev_vars = &stage->previous->content.variables;
+ name = var.name;
}
- }
- }
-
- TraversingVisitor::visit(var);
-}
-void InterfaceGenerator::visit(InterfaceBlock &iface)
-{
- if(iface.interface=="in")
- {
- /* Try to link input blocks with output blocks sharing the same block
- name from previous stage. */
- if(!iface.linked_block && stage->previous)
- {
- const map<string, InterfaceBlock *> &prev_blocks = stage->previous->interface_blocks;
- map<string, InterfaceBlock *>::const_iterator i = prev_blocks.find("out"+iface.name);
- if(i!=prev_blocks.end())
+ auto i = prev_vars->find(name);
+ if(i!=prev_vars->end() && i->second->interface=="out")
{
- iface.linked_block = i->second;
- i->second->linked_block = &iface;
+ var.linked_declaration = i->second;
+ i->second->linked_declaration = &var;
}
}
}
- TraversingVisitor::visit(iface);
+ TraversingVisitor::visit(var);
}
void InterfaceGenerator::visit(FunctionDeclaration &func)
if(stage->previous)
{
- const map<string, VariableDeclaration *> &prev_vars = stage->previous->content.variables;
- for(map<string, VariableDeclaration *>::const_iterator i=prev_vars.begin(); i!=prev_vars.end(); ++i)
+ for(const auto &kvp: stage->previous->content.variables)
{
- if(i->second->interface!="out")
+ if(kvp.second->interface!="out")
continue;
/* Pass through output variables from the previous stage, but only
those which are not already linked to an input here. */
- if(!i->second->linked_declaration && generate_interface(*i->second, "in", i->second->name))
- pass_vars.push_back(i->second);
+ if(!kvp.second->linked_declaration && generate_interface(*kvp.second, "in", kvp.second->name))
+ pass_vars.push_back(kvp.second);
}
}
{
/* Special case for geometry shader: copy gl_Position from input to
output. */
- InterfaceBlockReference *ref = new InterfaceBlockReference;
+ VariableReference *ref = new VariableReference;
ref->name = "gl_in";
BinaryExpression *subscript = new BinaryExpression;
memacc->left = subscript;
memacc->member = "gl_Position";
- insert_assignment("gl_Position", memacc);
+ insert_assignment("out gl_PerVertex.gl_Position", memacc);
}
- for(vector<VariableDeclaration *>::const_iterator i=pass_vars.begin(); i!=pass_vars.end(); ++i)
+ for(VariableDeclaration *v: pass_vars)
{
- string out_name = change_prefix((*i)->name, out_prefix);
- generate_interface(**i, "out", out_name);
+ string out_name = change_prefix(v->name, out_prefix);
+ generate_interface(*v, "out", out_name);
VariableReference *ref = new VariableReference;
- ref->name = (*i)->name;
+ ref->name = v->name;
if(pass.subscript)
{
BinaryExpression *subscript = new BinaryExpression;
nodes_to_remove.insert(&pass);
}
+
+void ArraySizer::apply(Stage &stage)
+{
+ stage.content.visit(*this);
+ for(const auto &kvp: max_indices)
+ if(kvp.first->array && !kvp.first->array_size)
+ {
+ int size = 0;
+ if(stage.type==Stage::GEOMETRY && kvp.first->interface=="in")
+ size = input_size;
+ else if(kvp.second>=0)
+ size = kvp.second+1;
+ else if(!kvp.first->name.compare(0, 3, "gl_"))
+ size = 1;
+
+ if(size>0)
+ {
+ Literal *literal_size = new Literal;
+ literal_size->token = lexical_cast<string>(size);
+ literal_size->value = size;
+ kvp.first->array_size = literal_size;
+ }
+ }
+}
+
+void ArraySizer::visit(VariableReference &var)
+{
+ r_declaration = var.declaration;
+}
+
+void ArraySizer::visit(MemberAccess &memacc)
+{
+ r_declaration = 0;
+ TraversingVisitor::visit(memacc);
+ VariableDeclaration *member_declaration = 0;
+ if(r_declaration)
+ if(StructDeclaration *strct = dynamic_cast<StructDeclaration *>(r_declaration->type_declaration))
+ {
+ auto i = strct->members.variables.find(memacc.member);
+ if(i!=strct->members.variables.end())
+ member_declaration = i->second;
+ }
+ r_declaration = member_declaration;
+}
+
+void ArraySizer::visit(Swizzle &swizzle)
+{
+ TraversingVisitor::visit(swizzle);
+ r_declaration = 0;
+}
+
+void ArraySizer::visit(UnaryExpression &unary)
+{
+ TraversingVisitor::visit(unary);
+ r_declaration = 0;
+}
+
+void ArraySizer::visit(BinaryExpression &binary)
+{
+ if(binary.oper->token[0]=='[')
+ if(const Literal *literal_index = dynamic_cast<const Literal *>(binary.right.get()))
+ if(literal_index->value.check_type<int>())
+ {
+ r_declaration = 0;
+ binary.left->visit(*this);
+ if(r_declaration)
+ {
+ max_indices[r_declaration] = literal_index->value.value<int>();
+ return;
+ }
+ }
+
+ TraversingVisitor::visit(binary);
+}
+
+void ArraySizer::visit(TernaryExpression &ternary)
+{
+ TraversingVisitor::visit(ternary);
+ r_declaration = 0;
+}
+
+void ArraySizer::visit(FunctionCall &call)
+{
+ TraversingVisitor::visit(call);
+ r_declaration = 0;
+}
+
+void ArraySizer::visit(InterfaceLayout &layout)
+{
+ if(layout.interface=="in")
+ {
+ for(const Layout::Qualifier &q: layout.layout.qualifiers)
+ {
+ if(q.name=="points")
+ input_size = 1;
+ else if(q.name=="lines")
+ input_size = 2;
+ else if(q.name=="triangles")
+ input_size = 3;
+ else if(q.name=="lines_adjacency")
+ input_size = 4;
+ else if(q.name=="triangles_adjacency")
+ input_size = 6;
+ }
+ }
+}
+
+void ArraySizer::visit(VariableDeclaration &var)
+{
+ if(var.array && !var.array_size)
+ max_indices[&var] = 0;
+}
+
} // namespace SL
} // namespace GL
} // namespace Msp