| //===- WebAssemblyInstrControl.td-WebAssembly control-flow ------*- tablegen -*- |
| // |
| // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. |
| // See https://llvm.org/LICENSE.txt for license information. |
| // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception |
| // |
| //===----------------------------------------------------------------------===// |
| /// |
| /// \file |
| /// WebAssembly control-flow code-gen constructs. |
| /// |
| //===----------------------------------------------------------------------===// |
| |
| let isBranch = 1, isTerminator = 1, hasCtrlDep = 1 in { |
| // The condition operand is a boolean value which WebAssembly represents as i32. |
| defm BR_IF : I<(outs), (ins bb_op:$dst, I32:$cond), |
| (outs), (ins bb_op:$dst), |
| [(brcond I32:$cond, bb:$dst)], |
| "br_if \t$dst, $cond", "br_if \t$dst", 0x0d>; |
| let isCodeGenOnly = 1 in |
| defm BR_UNLESS : I<(outs), (ins bb_op:$dst, I32:$cond), |
| (outs), (ins bb_op:$dst), []>; |
| let isBarrier = 1 in |
| defm BR : NRI<(outs), (ins bb_op:$dst), |
| [(br bb:$dst)], |
| "br \t$dst", 0x0c>; |
| } // isBranch = 1, isTerminator = 1, hasCtrlDep = 1 |
| |
| def : Pat<(brcond (i32 (setne I32:$cond, 0)), bb:$dst), |
| (BR_IF bb_op:$dst, I32:$cond)>; |
| def : Pat<(brcond (i32 (seteq I32:$cond, 0)), bb:$dst), |
| (BR_UNLESS bb_op:$dst, I32:$cond)>; |
| def : Pat<(brcond (i32 (xor bool_node:$cond, (i32 1))), bb:$dst), |
| (BR_UNLESS bb_op:$dst, I32:$cond)>; |
| |
| // A list of branch targets enclosed in {} and separated by comma. |
| // Used by br_table only. |
| def BrListAsmOperand : AsmOperandClass { let Name = "BrList"; } |
| let OperandNamespace = "WebAssembly", OperandType = "OPERAND_BRLIST" in |
| def brlist : Operand<i32> { |
| let ParserMatchClass = BrListAsmOperand; |
| let PrintMethod = "printBrList"; |
| } |
| |
| // Duplicating a BR_TABLE is almost never a good idea. In particular, it can |
| // lead to some nasty irreducibility due to tail merging when the br_table is in |
| // a loop. |
| let isTerminator = 1, hasCtrlDep = 1, isBarrier = 1, isNotDuplicable = 1 in { |
| |
| defm BR_TABLE_I32 : I<(outs), (ins I32:$index, variable_ops), |
| (outs), (ins brlist:$brl), |
| [(WebAssemblybr_table I32:$index)], |
| "br_table \t$index", "br_table \t$brl", |
| 0x0e>; |
| // TODO: SelectionDAG's lowering insists on using a pointer as the index for |
| // jump tables, so in practice we don't ever use BR_TABLE_I64 in wasm32 mode |
| // currently. |
| defm BR_TABLE_I64 : I<(outs), (ins I64:$index, variable_ops), |
| (outs), (ins brlist:$brl), |
| [(WebAssemblybr_table I64:$index)], |
| "br_table \t$index", "br_table \t$brl", |
| 0x0e>; |
| } // isTerminator = 1, hasCtrlDep = 1, isBarrier = 1, isNotDuplicable = 1 |
| |
| // This is technically a control-flow instruction, since all it affects is the |
| // IP. |
| defm NOP : NRI<(outs), (ins), [], "nop", 0x01>; |
| |
| // Placemarkers to indicate the start or end of a block or loop scope. |
| // These use/clobber VALUE_STACK to prevent them from being moved into the |
| // middle of an expression tree. |
| let Uses = [VALUE_STACK], Defs = [VALUE_STACK] in { |
| defm BLOCK : NRI<(outs), (ins Signature:$sig), [], "block \t$sig", 0x02>; |
| defm LOOP : NRI<(outs), (ins Signature:$sig), [], "loop \t$sig", 0x03>; |
| |
| defm IF : I<(outs), (ins Signature:$sig, I32:$cond), |
| (outs), (ins Signature:$sig), |
| [], "if \t$sig, $cond", "if \t$sig", 0x04>; |
| defm ELSE : NRI<(outs), (ins), [], "else", 0x05>; |
| |
| // END_BLOCK, END_LOOP, END_IF and END_FUNCTION are represented with the same |
| // opcode in wasm. |
| defm END_BLOCK : NRI<(outs), (ins), [], "end_block", 0x0b>; |
| defm END_LOOP : NRI<(outs), (ins), [], "end_loop", 0x0b>; |
| defm END_IF : NRI<(outs), (ins), [], "end_if", 0x0b>; |
| // Generic instruction, for disassembler. |
| let IsCanonical = 1 in |
| defm END : NRI<(outs), (ins), [], "end", 0x0b>; |
| let isTerminator = 1, isBarrier = 1 in |
| defm END_FUNCTION : NRI<(outs), (ins), [], "end_function", 0x0b>; |
| } // Uses = [VALUE_STACK], Defs = [VALUE_STACK] |
| |
| |
| let hasCtrlDep = 1, isBarrier = 1 in { |
| let isTerminator = 1 in { |
| let isReturn = 1 in { |
| |
| defm RETURN : I<(outs), (ins variable_ops), (outs), (ins), |
| [(WebAssemblyreturn)], |
| "return", "return", 0x0f>; |
| // Equivalent to RETURN, for use at the end of a function when wasm |
| // semantics return by falling off the end of the block. |
| let isCodeGenOnly = 1 in |
| defm FALLTHROUGH_RETURN : I<(outs), (ins variable_ops), (outs), (ins), []>; |
| |
| } // isReturn = 1 |
| |
| let IsCanonical = 1, isTrap = 1 in |
| defm UNREACHABLE : NRI<(outs), (ins), [(trap)], "unreachable", 0x00>; |
| |
| } // isTerminator = 1 |
| |
| // debugtrap explicitly returns despite trapping because it is supposed to just |
| // get the attention of the debugger. Unfortunately, because UNREACHABLE is a |
| // terminator, lowering debugtrap to UNREACHABLE can create an invalid |
| // MachineBasicBlock when there is additional code after it. Lower it to this |
| // non-terminator version instead. |
| // TODO: Actually execute the debugger statement when running on the Web |
| let isTrap = 1 in |
| defm DEBUG_UNREACHABLE : NRI<(outs), (ins), [(debugtrap)], "unreachable", 0x00>; |
| |
| } // hasCtrlDep = 1, isBarrier = 1 |
| |
| //===----------------------------------------------------------------------===// |
| // Exception handling instructions |
| //===----------------------------------------------------------------------===// |
| |
| let Predicates = [HasExceptionHandling] in { |
| |
| // Throwing an exception: throw / rethrow |
| let isTerminator = 1, hasCtrlDep = 1, isBarrier = 1 in { |
| defm THROW : I<(outs), (ins tag_op:$tag, variable_ops), |
| (outs), (ins tag_op:$tag), [], |
| "throw \t$tag", "throw \t$tag", 0x08>; |
| defm RETHROW : NRI<(outs), (ins i32imm:$depth), [], "rethrow \t$depth", 0x09>; |
| } // isTerminator = 1, hasCtrlDep = 1, isBarrier = 1 |
| // The depth argument will be computed in CFGStackify. We set it to 0 here for |
| // now. |
| def : Pat<(int_wasm_rethrow), (RETHROW 0)>; |
| |
| // Region within which an exception is caught: try / end_try |
| let Uses = [VALUE_STACK], Defs = [VALUE_STACK] in { |
| defm TRY : NRI<(outs), (ins Signature:$sig), [], "try \t$sig", 0x06>; |
| defm END_TRY : NRI<(outs), (ins), [], "end_try", 0x0b>; |
| } // Uses = [VALUE_STACK], Defs = [VALUE_STACK] |
| |
| // Catching an exception: catch / catch_all |
| let hasCtrlDep = 1, hasSideEffects = 1 in { |
| let variadicOpsAreDefs = 1 in |
| defm CATCH : I<(outs), (ins tag_op:$tag, variable_ops), |
| (outs), (ins tag_op:$tag), [], |
| "catch", "catch \t$tag", 0x07>; |
| defm CATCH_ALL : NRI<(outs), (ins), [], "catch_all", 0x19>; |
| } |
| |
| // Delegating an exception: delegate |
| let isTerminator = 1, hasCtrlDep = 1, hasSideEffects = 1 in |
| defm DELEGATE : NRI<(outs), (ins bb_op:$dst), [], "delegate \t $dst", 0x18>; |
| |
| // Pseudo instructions: cleanupret / catchret |
| let isTerminator = 1, hasSideEffects = 1, isBarrier = 1, hasCtrlDep = 1, |
| isPseudo = 1, isEHScopeReturn = 1 in { |
| defm CLEANUPRET : NRI<(outs), (ins), [(cleanupret)], "cleanupret", 0>; |
| defm CATCHRET : NRI<(outs), (ins bb_op:$dst, bb_op:$from), |
| [(catchret bb:$dst, bb:$from)], "catchret", 0>; |
| } // isTerminator = 1, hasSideEffects = 1, isBarrier = 1, hasCtrlDep = 1, |
| // isPseudo = 1, isEHScopeReturn = 1 |
| } // Predicates = [HasExceptionHandling] |