/* * Copyright (C) 2011, 2012 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef DFGCapabilities_h #define DFGCapabilities_h #include "Intrinsic.h" #include "DFGCommon.h" #include "DFGNode.h" #include "Executable.h" #include "Options.h" #include "Interpreter.h" #include namespace JSC { namespace DFG { #if ENABLE(DFG_JIT) // Fast check functions; if they return true it is still necessary to // check opcodes. bool mightCompileEval(CodeBlock*); bool mightCompileProgram(CodeBlock*); bool mightCompileFunctionForCall(CodeBlock*); bool mightCompileFunctionForConstruct(CodeBlock*); bool mightInlineFunctionForCall(CodeBlock*); bool mightInlineFunctionForClosureCall(CodeBlock*); bool mightInlineFunctionForConstruct(CodeBlock*); // Opcode checking. inline bool canInlineResolveOperations(ResolveOperations* operations) { for (unsigned i = 0; i < operations->size(); i++) { switch (operations->data()[i].m_operation) { case ResolveOperation::ReturnGlobalObjectAsBase: case ResolveOperation::SetBaseToGlobal: case ResolveOperation::SetBaseToUndefined: case ResolveOperation::GetAndReturnGlobalProperty: case ResolveOperation::GetAndReturnGlobalVar: case ResolveOperation::GetAndReturnGlobalVarWatchable: case ResolveOperation::SkipScopes: case ResolveOperation::SetBaseToScope: case ResolveOperation::ReturnScopeAsBase: case ResolveOperation::GetAndReturnScopedVar: continue; case ResolveOperation::Fail: // Fall-back resolves don't know how to deal with the ExecState* having a different // global object (and scope) than the inlined code that is invoking that resolve. return false; case ResolveOperation::SkipTopScopeNode: // We don't inline code blocks that create activations. Creation of // activations is the only thing that leads to SkipTopScopeNode. return false; case ResolveOperation::CheckForDynamicEntriesBeforeGlobalScope: // This would be easy to support in all cases. return false; } } return true; } inline CapabilityLevel canCompileOpcode(OpcodeID opcodeID, CodeBlock*, Instruction*) { switch (opcodeID) { case op_enter: case op_convert_this: case op_create_this: case op_get_callee: case op_bitand: case op_bitor: case op_bitxor: case op_rshift: case op_lshift: case op_urshift: case op_inc: case op_dec: case op_add: case op_sub: case op_negate: case op_mul: case op_mod: case op_div: #if ENABLE(DEBUG_WITH_BREAKPOINT) case op_debug: #endif case op_mov: case op_check_has_instance: case op_instanceof: case op_is_undefined: case op_is_boolean: case op_is_number: case op_is_string: case op_is_object: case op_is_function: case op_not: case op_less: case op_lesseq: case op_greater: case op_greatereq: case op_eq: case op_eq_null: case op_stricteq: case op_neq: case op_neq_null: case op_nstricteq: case op_get_by_val: case op_put_by_val: case op_get_by_id: case op_get_by_id_out_of_line: case op_get_array_length: case op_put_by_id: case op_put_by_id_out_of_line: case op_put_by_id_transition_direct: case op_put_by_id_transition_direct_out_of_line: case op_put_by_id_transition_normal: case op_put_by_id_transition_normal_out_of_line: case op_init_global_const_nop: case op_init_global_const: case op_init_global_const_check: case op_jmp: case op_jtrue: case op_jfalse: case op_jeq_null: case op_jneq_null: case op_jless: case op_jlesseq: case op_jgreater: case op_jgreatereq: case op_jnless: case op_jnlesseq: case op_jngreater: case op_jngreatereq: case op_loop_hint: case op_ret: case op_end: case op_call_put_result: case op_new_object: case op_new_array: case op_new_array_with_size: case op_new_array_buffer: case op_strcat: case op_to_primitive: case op_throw: case op_throw_static_error: case op_call: case op_construct: case op_new_regexp: case op_init_lazy_reg: case op_create_activation: case op_tear_off_activation: case op_create_arguments: case op_tear_off_arguments: case op_new_func: case op_new_func_exp: case op_get_argument_by_val: case op_get_arguments_length: case op_jneq_ptr: case op_put_to_base_variable: case op_put_to_base: case op_typeof: case op_to_number: return CanCompile; case op_call_varargs: return MayInline; case op_resolve: case op_resolve_global_property: case op_resolve_global_var: case op_resolve_scoped_var: case op_resolve_scoped_var_on_top_scope: case op_resolve_scoped_var_with_top_scope_check: return CanCompile; case op_get_scoped_var: case op_put_scoped_var: return CanCompile; case op_resolve_base_to_global: case op_resolve_base_to_global_dynamic: case op_resolve_base_to_scope: case op_resolve_base_to_scope_with_top_scope_check: case op_resolve_base: case op_resolve_with_base: case op_resolve_with_this: return CanCompile; default: return CannotCompile; } } inline bool canInlineOpcode(OpcodeID opcodeID, CodeBlock* codeBlock, Instruction* pc) { switch (opcodeID) { case op_resolve: case op_resolve_global_property: case op_resolve_global_var: case op_resolve_scoped_var: case op_resolve_scoped_var_on_top_scope: case op_resolve_scoped_var_with_top_scope_check: return canInlineResolveOperations(pc[3].u.resolveOperations); case op_resolve_base_to_global: case op_resolve_base_to_global_dynamic: case op_resolve_base_to_scope: case op_resolve_base_to_scope_with_top_scope_check: case op_resolve_base: case op_resolve_with_base: case op_resolve_with_this: return canInlineResolveOperations(pc[4].u.resolveOperations); case op_get_scoped_var: case op_put_scoped_var: return !codeBlock->needsFullScopeChain(); // Inlining doesn't correctly remap regular expression operands. case op_new_regexp: // We don't support inlining code that creates activations or has nested functions. case op_create_activation: case op_tear_off_activation: case op_new_func: case op_new_func_exp: return false; // Inlining supports op_call_varargs if it's a call that just forwards the caller's // arguments. case op_call_varargs: return codeBlock->usesArguments() && pc[3].u.operand == codeBlock->argumentsRegister(); default: return canCompileOpcode(opcodeID, codeBlock, pc) == CanCompile; } } CapabilityLevel canCompileOpcodes(CodeBlock*); bool canInlineOpcodes(CodeBlock*); #else // ENABLE(DFG_JIT) inline bool mightCompileEval(CodeBlock*) { return false; } inline bool mightCompileProgram(CodeBlock*) { return false; } inline bool mightCompileFunctionForCall(CodeBlock*) { return false; } inline bool mightCompileFunctionForConstruct(CodeBlock*) { return false; } inline bool mightInlineFunctionForCall(CodeBlock*) { return false; } inline bool mightInlineFunctionForClosureCall(CodeBlock*) { return false; } inline bool mightInlineFunctionForConstruct(CodeBlock*) { return false; } inline CapabilityLevel canCompileOpcode(OpcodeID, CodeBlock*, Instruction*) { return CannotCompile; } inline bool canInlineOpcode(OpcodeID, CodeBlock*, Instruction*) { return false; } inline CapabilityLevel canCompileOpcodes(CodeBlock*) { return CannotCompile; } inline bool canInlineOpcodes(CodeBlock*) { return false; } #endif // ENABLE(DFG_JIT) inline CapabilityLevel canCompileEval(CodeBlock* codeBlock) { if (!mightCompileEval(codeBlock)) return CannotCompile; return canCompileOpcodes(codeBlock); } inline CapabilityLevel canCompileProgram(CodeBlock* codeBlock) { if (!mightCompileProgram(codeBlock)) return CannotCompile; return canCompileOpcodes(codeBlock); } inline CapabilityLevel canCompileFunctionForCall(CodeBlock* codeBlock) { if (!mightCompileFunctionForCall(codeBlock)) return CannotCompile; return canCompileOpcodes(codeBlock); } inline CapabilityLevel canCompileFunctionForConstruct(CodeBlock* codeBlock) { if (!mightCompileFunctionForConstruct(codeBlock)) return CannotCompile; return canCompileOpcodes(codeBlock); } inline bool canInlineFunctionForCall(CodeBlock* codeBlock) { return mightInlineFunctionForCall(codeBlock) && canInlineOpcodes(codeBlock); } inline bool canInlineFunctionForClosureCall(CodeBlock* codeBlock) { return mightInlineFunctionForClosureCall(codeBlock) && canInlineOpcodes(codeBlock); } inline bool canInlineFunctionForConstruct(CodeBlock* codeBlock) { return mightInlineFunctionForConstruct(codeBlock) && canInlineOpcodes(codeBlock); } inline bool mightInlineFunctionFor(CodeBlock* codeBlock, CodeSpecializationKind kind) { if (kind == CodeForCall) return mightInlineFunctionForCall(codeBlock); ASSERT(kind == CodeForConstruct); return mightInlineFunctionForConstruct(codeBlock); } inline bool canInlineFunctionFor(CodeBlock* codeBlock, CodeSpecializationKind kind, bool isClosureCall) { if (isClosureCall) { ASSERT(kind == CodeForCall); return canInlineFunctionForClosureCall(codeBlock); } if (kind == CodeForCall) return canInlineFunctionForCall(codeBlock); ASSERT(kind == CodeForConstruct); return canInlineFunctionForConstruct(codeBlock); } } } // namespace JSC::DFG #endif // DFGCapabilities_h