X-Git-Url: http://git.tdb.fi/?p=libs%2Fgl.git;a=blobdiff_plain;f=source%2Fglsl%2Foptimize.h;h=6d4b1bcb5d2c2e5d883d7ab640390481c8c7e84e;hp=2e28d48a0dcbfe711057572cc7f5e1574dbe8789;hb=4790c6a06072814b21f5b3f24b53c6936915308d;hpb=1fa69bb8eec3070f5da296d6dd0bd67aea62d3bf diff --git a/source/glsl/optimize.h b/source/glsl/optimize.h index 2e28d48a..6d4b1bcb 100644 --- a/source/glsl/optimize.h +++ b/source/glsl/optimize.h @@ -3,137 +3,311 @@ #include #include -#include "evaluate.h" #include "visitor.h" namespace Msp { namespace GL { namespace SL { -class InlineableFunctionLocator: public TraversingVisitor +/** Finds functions which are candidates for inlining. Currently this means +functions which have no flow control statements, no more than one return +statement, and are only called once. */ +class InlineableFunctionLocator: private TraversingVisitor { private: std::map refcounts; std::set inlineable; - FunctionDeclaration *in_function; + FunctionDeclaration *current_function; + unsigned return_count; public: InlineableFunctionLocator(); - const std::set &apply(Stage &s) { visit(s.content); return inlineable; } + const std::set &apply(Stage &s) { s.content.visit(*this); return inlineable; } - using TraversingVisitor::visit; +private: virtual void visit(FunctionCall &); virtual void visit(FunctionDeclaration &); + virtual void visit(Conditional &); + virtual void visit(Iteration &); + virtual void visit(Return &); +}; + +/** Injects statements from one function into another. Local variables are +renamed to avoid conflicts. After inlining, uses NodeReorderer to cause +dependencies of the inlined statements to appear before the target function. */ +class InlineContentInjector: private TraversingVisitor +{ +private: + enum Pass + { + DEPENDS, + REFERENCED, + INLINE, + RENAME + }; + + FunctionDeclaration *source_func; + Block staging_block; + std::string remap_prefix; + Pass pass; + RefPtr r_inlined_statement; + std::set dependencies; + std::set referenced_names; + std::string r_result_name; + +public: + InlineContentInjector(); + + const std::string &apply(Stage &, FunctionDeclaration &, Block &, const NodeList::iterator &, FunctionCall &); + +private: + virtual void visit(VariableReference &); + virtual void visit(InterfaceBlockReference &); + virtual void visit(FunctionCall &); + virtual void visit(VariableDeclaration &); + virtual void visit(Return &); }; -class FunctionInliner: public TraversingVisitor +/** Inlines functions. Internally uses InlineableFunctionLocator to find +candidate functions. Only functions which consist of a single return statement +are inlined. */ +class FunctionInliner: private TraversingVisitor { private: + Stage *stage; std::set inlineable; - unsigned extract_result; - RefPtr inline_result; + FunctionDeclaration *current_function; + NodeList::iterator insert_point; + RefPtr r_inline_result; + bool r_any_inlined; + bool r_inlined_here; public: FunctionInliner(); - FunctionInliner(const std::set &); - void apply(Stage &s) { visit(s.content); } + bool apply(Stage &); private: - void visit_and_inline(RefPtr &); + virtual void visit(RefPtr &); + virtual void visit(Block &); + virtual void visit(FunctionCall &); + virtual void visit(FunctionDeclaration &); + virtual void visit(Iteration &); +}; + +/** Inlines variables into expressions. Variables with trivial values (those +consisting of a single literal or variable reference) are always inlined. +Variables which are only referenced once are also inlined. */ +class ExpressionInliner: private TraversingVisitor +{ +private: + struct ExpressionInfo + { + Expression *expression; + Block *assign_scope; + RefPtr *inline_point; + bool trivial; + bool available; + + ExpressionInfo(); + }; + + std::map expressions; + ExpressionInfo *r_ref_info; + bool r_any_inlined; + bool r_trivial; + bool mutating; + bool iteration_init; + Block *iteration_body; + const Operator *r_oper; + public: - using TraversingVisitor::visit; + ExpressionInliner(); + + bool apply(Stage &); + +private: + void inline_expression(Expression &, RefPtr &); virtual void visit(Block &); + virtual void visit(RefPtr &); + virtual void visit(VariableReference &); + virtual void visit(MemberAccess &); + virtual void visit(Swizzle &); virtual void visit(UnaryExpression &); virtual void visit(BinaryExpression &); - virtual void visit(MemberAccess &); + virtual void visit(Assignment &); + virtual void visit(TernaryExpression &); virtual void visit(FunctionCall &); virtual void visit(VariableDeclaration &); - virtual void visit(Return &); + virtual void visit(Iteration &); }; -class ConstantConditionEliminator: public BlockModifier +/** Replaces expressions consisting entirely of literals with the results of +evaluating the expression.*/ +class ConstantFolder: private TraversingVisitor { private: - unsigned scope_level; - bool record_only; - ExpressionEvaluator::ValueMap variable_values; + VariableDeclaration *iteration_var; + Variant iter_init_value; + Variant r_constant_value; + bool iteration_init; + bool r_constant; + bool r_literal; + bool r_uses_iter_var; + bool r_any_folded; public: - ConstantConditionEliminator(); + bool apply(Stage &s) { s.content.visit(*this); return r_any_folded; } - void apply(Stage &s) { visit(s.content); } +private: + static BasicTypeDeclaration::Kind get_value_kind(const Variant &); + template + static T evaluate_logical(char, T, T); + template + static bool evaluate_relation(const char *, T, T); + template + static T evaluate_arithmetic(char, T, T); + void set_result(const Variant &, bool = false); - using BlockModifier::visit; - virtual void visit(Block &); + virtual void visit(RefPtr &); + virtual void visit(Literal &); + virtual void visit(VariableReference &); + virtual void visit(MemberAccess &); + virtual void visit(Swizzle &); virtual void visit(UnaryExpression &); + virtual void visit(BinaryExpression &); virtual void visit(Assignment &); + virtual void visit(TernaryExpression &); + virtual void visit(FunctionCall &); virtual void visit(VariableDeclaration &); + virtual void visit(Iteration &); +}; + +/** Removes conditional statements and loops where the condition can be +determined as constant at compile time. */ +class ConstantConditionEliminator: private TraversingVisitor +{ +private: + enum ConstantStatus + { + CONSTANT_FALSE, + CONSTANT_TRUE, + NOT_CONSTANT + }; + + NodeList::iterator insert_point; + std::set nodes_to_remove; + RefPtr r_ternary_result; + +public: + void apply(Stage &); + +private: + ConstantStatus check_constant_condition(const Expression &); + + virtual void visit(Block &); + virtual void visit(RefPtr &); + virtual void visit(TernaryExpression &); virtual void visit(Conditional &); virtual void visit(Iteration &); }; -class UnusedVariableLocator: public TraversingVisitor +/** Removes types which are not used anywhere. */ +class UnusedTypeRemover: private TraversingVisitor { private: + std::set unused_nodes; + +public: + bool apply(Stage &); + +private: + virtual void visit(Literal &); + virtual void visit(UnaryExpression &); + virtual void visit(BinaryExpression &); + virtual void visit(TernaryExpression &); + virtual void visit(FunctionCall &); + virtual void visit(BasicTypeDeclaration &); + virtual void visit(ImageTypeDeclaration &); + virtual void visit(StructDeclaration &); + virtual void visit(VariableDeclaration &); + virtual void visit(InterfaceBlock &); + virtual void visit(FunctionDeclaration &); +}; + +/** Removes variable declarations with no references to them. Assignment +statements where the result is not used are also removed. */ +class UnusedVariableRemover: private TraversingVisitor +{ +private: + struct AssignmentInfo + { + Node *node; + Assignment::Target target; + std::vector used_by; + + AssignmentInfo(): node(0) { } + }; + struct VariableInfo { - bool local; - std::vector assignments; - bool conditionally_assigned; + InterfaceBlock *interface_block; + std::vector assignments; + bool initialized; + bool output; bool referenced; - VariableInfo(); + VariableInfo(): interface_block(0), initialized(false), output(false), referenced(false) { } }; - typedef std::map BlockVariableMap; + typedef std::map BlockVariableMap; - std::set unused_nodes; - std::map aggregates; - Node *aggregate; - std::vector variables; - Assignment *assignment; + Stage *stage; + BlockVariableMap variables; + std::list assignments; + InterfaceBlock *interface_block; + Assignment *r_assignment; bool assignment_target; - bool assign_to_subscript; - bool global_scope; + bool r_side_effects; + std::set unused_nodes; public: - UnusedVariableLocator(); + UnusedVariableRemover(); - const std::set &apply(Stage &); + bool apply(Stage &); - using TraversingVisitor::visit; +private: + void referenced(const Assignment::Target &, Node &); virtual void visit(VariableReference &); - virtual void visit(MemberAccess &); + virtual void visit(InterfaceBlockReference &); + virtual void visit(UnaryExpression &); virtual void visit(BinaryExpression &); virtual void visit(Assignment &); -private: - void record_assignment(VariableDeclaration &, Node &, bool); - void clear_assignments(VariableInfo &, bool); -public: + virtual void visit(FunctionCall &); + void record_assignment(const Assignment::Target &, Node &); virtual void visit(ExpressionStatement &); - virtual void visit(StructDeclaration &); + // Ignore structs because their members can't be accessed directly. + virtual void visit(StructDeclaration &) { } virtual void visit(VariableDeclaration &); virtual void visit(InterfaceBlock &); + void merge_variables(const BlockVariableMap &); virtual void visit(FunctionDeclaration &); -private: - void merge_down_variables(); -public: virtual void visit(Conditional &); virtual void visit(Iteration &); }; -class UnusedFunctionLocator: public TraversingVisitor +/** Removes function declarations with no references to them. */ +class UnusedFunctionRemover: private TraversingVisitor { private: std::set unused_nodes; std::set used_definitions; public: - const std::set &apply(Stage &s) { visit(s.content); return unused_nodes; } + bool apply(Stage &s); - using TraversingVisitor::visit; +private: virtual void visit(FunctionCall &); virtual void visit(FunctionDeclaration &); };