mirror of
https://github.com/danog/ir.git
synced 2024-12-11 16:59:46 +01:00
8668550427
Currently we may just load LLVM module and convert all functions into IR (print it). For better LLVM support IR framework needs support for modules. Some LLVM features are not supported yet (see TODOs in ir_load_llvm.c) .
640 lines
44 KiB
C
640 lines
44 KiB
C
/*
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* IR - Lightweight JIT Compilation Framework
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* (IR Construction API)
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* Copyright (C) 2022 Zend by Perforce.
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* Authors: Dmitry Stogov <dmitry@php.net>
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*/
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#ifndef IR_BUILDER_H
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#define IR_BUILDER_H
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#ifdef __cplusplus
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extern "C" {
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#endif
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/* _ir_CTX may be redefined by the user */
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#define _ir_CTX ctx
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#define ir_NOP() ir_emit0(_ir_CTX, IR_NOP)
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#define ir_CONST_BOOL(_val) ir_const_bool(_ir_CTX, (_val))
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#define ir_CONST_U8(_val) ir_const_u8(_ir_CTX, (_val))
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#define ir_CONST_U16(_val) ir_const_u16(_ir_CTX, (_val))
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#define ir_CONST_U32(_val) ir_const_u32(_ir_CTX, (_val))
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#define ir_CONST_U64(_val) ir_const_u64(_ir_CTX, (_val))
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#define ir_CONST_ADDR(_val) ir_const_addr(_ir_CTX, (uintptr_t)(_val))
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#define ir_CONST_CHAR(_val) ir_const_char(_ir_CTX, (_val))
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#define ir_CONST_I8(_val) ir_const_i8(_ir_CTX, (_val))
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#define ir_CONST_I16(_val) ir_const_i16(_ir_CTX, (_val))
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#define ir_CONST_I32(_val) ir_const_i32(_ir_CTX, (_val))
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#define ir_CONST_I64(_val) ir_const_i64(_ir_CTX, (_val))
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#define ir_CONST_DOUBLE(_val) ir_const_double(_ir_CTX, (_val))
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#define ir_CONST_FLOAT(_val) ir_const_float(_ir_CTX, (_val))
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#define ir_CMP_OP(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_BOOL), (_op1), (_op2))
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#define ir_UNARY_OP(_op, _type, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), (_type)), (_op1))
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#define ir_UNARY_OP_B(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_BOOL), (_op1))
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#define ir_UNARY_OP_U8(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_U8), (_op1))
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#define ir_UNARY_OP_U16(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_U16), (_op1))
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#define ir_UNARY_OP_U32(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_U32), (_op1))
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#define ir_UNARY_OP_U64(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_U64), (_op1))
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#define ir_UNARY_OP_A(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_ADDR), (_op1))
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#define ir_UNARY_OP_C(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_CHAR), (_op1))
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#define ir_UNARY_OP_I8(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_I8), (_op1))
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#define ir_UNARY_OP_I16(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_I16), (_op1))
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#define ir_UNARY_OP_I32(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_I32), (_op1))
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#define ir_UNARY_OP_I64(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_I64), (_op1))
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#define ir_UNARY_OP_D(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_DOUBLE), (_op1))
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#define ir_UNARY_OP_F(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_FLOAT), (_op1))
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#define ir_BINARY_OP(_op, _t, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), (_t)), (_op1), (_op2))
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#define ir_BINARY_OP_B(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_BOOL), (_op1), (_op2))
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#define ir_BINARY_OP_U8(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_U8), (_op1), (_op2))
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#define ir_BINARY_OP_U16(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_U16), (_op1), (_op2))
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#define ir_BINARY_OP_U32(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_U32), (_op1), (_op2))
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#define ir_BINARY_OP_U64(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_U64), (_op1), (_op2))
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#define ir_BINARY_OP_A(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_ADDR), (_op1), (_op2))
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#define ir_BINARY_OP_C(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_CHAR), (_op1), (_op2))
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#define ir_BINARY_OP_I8(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_I8), (_op1), (_op2))
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#define ir_BINARY_OP_I16(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_I16), (_op1), (_op2))
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#define ir_BINARY_OP_I32(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_I32), (_op1), (_op2))
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#define ir_BINARY_OP_I64(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_I64), (_op1), (_op2))
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#define ir_BINARY_OP_D(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_DOUBLE), (_op1), (_op2))
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#define ir_BINARY_OP_F(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_FLOAT), (_op1), (_op2))
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#define ir_EQ(_op1, _op2) ir_CMP_OP(IR_EQ, (_op1), (_op2))
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#define ir_NE(_op1, _op2) ir_CMP_OP(IR_NE, (_op1), (_op2))
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#define ir_LT(_op1, _op2) ir_CMP_OP(IR_LT, (_op1), (_op2))
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#define ir_GE(_op1, _op2) ir_CMP_OP(IR_GE, (_op1), (_op2))
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#define ir_LE(_op1, _op2) ir_CMP_OP(IR_LE, (_op1), (_op2))
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#define ir_GT(_op1, _op2) ir_CMP_OP(IR_GT, (_op1), (_op2))
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#define ir_ULT(_op1, _op2) ir_CMP_OP(IR_ULT, (_op1), (_op2))
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#define ir_UGE(_op1, _op2) ir_CMP_OP(IR_UGE, (_op1), (_op2))
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#define ir_ULE(_op1, _op2) ir_CMP_OP(IR_ULE, (_op1), (_op2))
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#define ir_UGT(_op1, _op2) ir_CMP_OP(IR_UGT, (_op1), (_op2))
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#define ir_ADD(_type, _op1, _op2) ir_BINARY_OP(IR_ADD, (_type), (_op1), (_op2))
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#define ir_ADD_U8(_op1, _op2) ir_BINARY_OP_U8(IR_ADD, (_op1), (_op2))
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#define ir_ADD_U16(_op1, _op2) ir_BINARY_OP_U16(IR_ADD, (_op1), (_op2))
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#define ir_ADD_U32(_op1, _op2) ir_BINARY_OP_U32(IR_ADD, (_op1), (_op2))
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#define ir_ADD_U64(_op1, _op2) ir_BINARY_OP_U64(IR_ADD, (_op1), (_op2))
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#define ir_ADD_A(_op1, _op2) ir_BINARY_OP_A(IR_ADD, (_op1), (_op2))
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#define ir_ADD_C(_op1, _op2) ir_BINARY_OP_C(IR_ADD, (_op1), (_op2))
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#define ir_ADD_I8(_op1, _op2) ir_BINARY_OP_I8(IR_ADD, (_op1), (_op2))
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#define ir_ADD_I16(_op1, _op2) ir_BINARY_OP_I16(IR_ADD, (_op1), (_op2))
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#define ir_ADD_I32(_op1, _op2) ir_BINARY_OP_I32(IR_ADD, (_op1), (_op2))
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#define ir_ADD_I64(_op1, _op2) ir_BINARY_OP_I64(IR_ADD, (_op1), (_op2))
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#define ir_ADD_D(_op1, _op2) ir_BINARY_OP_D(IR_ADD, (_op1), (_op2))
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#define ir_ADD_F(_op1, _op2) ir_BINARY_OP_F(IR_ADD, (_op1), (_op2))
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#define ir_SUB(_type, _op1, _op2) ir_BINARY_OP(IR_SUB, (_type), (_op1), (_op2))
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#define ir_SUB_U8(_op1, _op2) ir_BINARY_OP_U8(IR_SUB, (_op1), (_op2))
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#define ir_SUB_U16(_op1, _op2) ir_BINARY_OP_U16(IR_SUB, (_op1), (_op2))
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#define ir_SUB_U32(_op1, _op2) ir_BINARY_OP_U32(IR_SUB, (_op1), (_op2))
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#define ir_SUB_U64(_op1, _op2) ir_BINARY_OP_U64(IR_SUB, (_op1), (_op2))
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#define ir_SUB_A(_op1, _op2) ir_BINARY_OP_A(IR_SUB, (_op1), (_op2))
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#define ir_SUB_C(_op1, _op2) ir_BINARY_OP_C(IR_SUB, (_op1), (_op2))
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#define ir_SUB_I8(_op1, _op2) ir_BINARY_OP_I8(IR_SUB, (_op1), (_op2))
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#define ir_SUB_I16(_op1, _op2) ir_BINARY_OP_I16(IR_SUB, (_op1), (_op2))
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#define ir_SUB_I32(_op1, _op2) ir_BINARY_OP_I32(IR_SUB, (_op1), (_op2))
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#define ir_SUB_I64(_op1, _op2) ir_BINARY_OP_I64(IR_SUB, (_op1), (_op2))
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#define ir_SUB_D(_op1, _op2) ir_BINARY_OP_D(IR_SUB, (_op1), (_op2))
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#define ir_SUB_F(_op1, _op2) ir_BINARY_OP_F(IR_SUB, (_op1), (_op2))
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#define ir_MUL(_type, _op1, _op2) ir_BINARY_OP(IR_MUL, (_type), (_op1), (_op2))
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#define ir_MUL_U8(_op1, _op2) ir_BINARY_OP_U8(IR_MUL, (_op1), (_op2))
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#define ir_MUL_U16(_op1, _op2) ir_BINARY_OP_U16(IR_MUL, (_op1), (_op2))
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#define ir_MUL_U32(_op1, _op2) ir_BINARY_OP_U32(IR_MUL, (_op1), (_op2))
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#define ir_MUL_U64(_op1, _op2) ir_BINARY_OP_U64(IR_MUL, (_op1), (_op2))
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#define ir_MUL_A(_op1, _op2) ir_BINARY_OP_A(IR_MUL, (_op1), (_op2))
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#define ir_MUL_C(_op1, _op2) ir_BINARY_OP_C(IR_MUL, (_op1), (_op2))
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#define ir_NUL_I8(_op1, _op2) ir_BINARY_OP_I8(IR_MUL, (_op1), (_op2))
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#define ir_MUL_I16(_op1, _op2) ir_BINARY_OP_I16(IR_MUL, (_op1), (_op2))
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#define ir_MUL_I32(_op1, _op2) ir_BINARY_OP_I32(IR_MUL, (_op1), (_op2))
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#define ir_MUL_I64(_op1, _op2) ir_BINARY_OP_I64(IR_MUL, (_op1), (_op2))
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#define ir_MUL_D(_op1, _op2) ir_BINARY_OP_D(IR_MUL, (_op1), (_op2))
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#define ir_MUL_F(_op1, _op2) ir_BINARY_OP_F(IR_MUL, (_op1), (_op2))
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#define ir_DIV(_type, _op1, _op2) ir_BINARY_OP(IR_DIV, (_type), (_op1), (_op2))
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#define ir_DIV_U8(_op1, _op2) ir_BINARY_OP_U8(IR_DIV, (_op1), (_op2))
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#define ir_DIV_U16(_op1, _op2) ir_BINARY_OP_U16(IR_DIV, (_op1), (_op2))
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#define ir_DIV_U32(_op1, _op2) ir_BINARY_OP_U32(IR_DIV, (_op1), (_op2))
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#define ir_DIV_U64(_op1, _op2) ir_BINARY_OP_U64(IR_DIV, (_op1), (_op2))
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#define ir_DIV_A(_op1, _op2) ir_BINARY_OP_A(IR_DIV, (_op1), (_op2))
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#define ir_DIV_C(_op1, _op2) ir_BINARY_OP_C(IR_DIV, (_op1), (_op2))
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#define ir_DIV_I8(_op1, _op2) ir_BINARY_OP_I8(IR_DIV, (_op1), (_op2))
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#define ir_DIV_I16(_op1, _op2) ir_BINARY_OP_I16(IR_DIV, (_op1), (_op2))
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#define ir_DIV_I32(_op1, _op2) ir_BINARY_OP_I32(IR_DIV, (_op1), (_op2))
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#define ir_DIV_I64(_op1, _op2) ir_BINARY_OP_I64(IR_DIV, (_op1), (_op2))
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#define ir_DIV_D(_op1, _op2) ir_BINARY_OP_D(IR_DIV, (_op1), (_op2))
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#define ir_DIV_F(_op1, _op2) ir_BINARY_OP_F(IR_DIV, (_op1), (_op2))
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#define ir_MOD(_type, _op1, _op2) ir_BINARY_OP(IR_MOD, (_type), (_op1), (_op2))
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#define ir_MOD_U8(_op1, _op2) ir_BINARY_OP_U8(IR_MOD, (_op1), (_op2))
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#define ir_MOD_U16(_op1, _op2) ir_BINARY_OP_U16(IR_MOD, (_op1), (_op2))
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#define ir_MOD_U32(_op1, _op2) ir_BINARY_OP_U32(IR_MOD, (_op1), (_op2))
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#define ir_MOD_U64(_op1, _op2) ir_BINARY_OP_U64(IR_MOD, (_op1), (_op2))
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#define ir_MOD_A(_op1, _op2) ir_BINARY_OP_A(IR_MOD, (_op1), (_op2))
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#define ir_MOD_C(_op1, _op2) ir_BINARY_OP_C(IR_MOD, (_op1), (_op2))
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#define ir_MOD_I8(_op1, _op2) ir_BINARY_OP_I8(IR_MOD, (_op1), (_op2))
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#define ir_MOD_I16(_op1, _op2) ir_BINARY_OP_I16(IR_MOD, (_op1), (_op2))
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#define ir_MOD_I32(_op1, _op2) ir_BINARY_OP_I32(IR_MOD, (_op1), (_op2))
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#define ir_MOD_I64(_op1, _op2) ir_BINARY_OP_I64(IR_MOD, (_op1), (_op2))
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#define ir_NEG(_type, _op1) ir_UNARY_OP(IR_NEG, (_type), (_op1))
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#define ir_NEG_C(_op1) ir_UNARY_OP_C(IR_NEG, (_op1))
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#define ir_NEG_I8(_op1) ir_UNARY_OP_I8(IR_NEG, (_op1))
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#define ir_NEG_I16(_op1) ir_UNARY_OP_I16(IR_NEG, (_op1))
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#define ir_NEG_I32(_op1) ir_UNARY_OP_I32(IR_NEG, (_op1))
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#define ir_NEG_I64(_op1) ir_UNARY_OP_I64(IR_NEG, (_op1))
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#define ir_NEG_D(_op1) ir_UNARY_OP_D(IR_NEG, (_op1))
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#define ir_NEG_F(_op1) ir_UNARY_OP_F(IR_NEG, (_op1))
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#define ir_ABS(_type, _op1) ir_UNARY_OP(IR_ABS, (_type), (_op1))
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#define ir_ABS_C(_op1) ir_UNARY_OP_C(IR_ABS, (_op1))
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#define ir_ABS_I8(_op1) ir_UNARY_OP_I8(IR_ABS, (_op1))
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#define ir_ABS_I16(_op1) ir_UNARY_OP_I16(IR_ABS, (_op1))
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#define ir_ABS_I32(_op1) ir_UNARY_OP_I32(IR_ABS, (_op1))
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#define ir_ABS_I64(_op1) ir_UNARY_OP_I64(IR_ABS, (_op1))
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#define ir_ABS_D(_op1) ir_UNARY_OP_D(IR_ABS, (_op1))
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#define ir_ABS_F(_op1) ir_UNARY_OP_F(IR_ABS, (_op1))
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#define ir_SEXT(_type, _op1) ir_UNARY_OP(IR_SEXT, (_type), (_op1))
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#define ir_SEXT_U8(_op1) ir_UNARY_OP_U8(IR_SEXT, (_op1))
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#define ir_SEXT_U16(_op1) ir_UNARY_OP_U16(IR_SEXT, (_op1))
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#define ir_SEXT_U32(_op1) ir_UNARY_OP_U32(IR_SEXT, (_op1))
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#define ir_SEXT_U64(_op1) ir_UNARY_OP_U64(IR_SEXT, (_op1))
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#define ir_SEXT_A(_op1) ir_UNARY_OP_A(IR_SEXT, (_op1))
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#define ir_SEXT_C(_op1) ir_UNARY_OP_C(IR_SEXT, (_op1))
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#define ir_SEXT_I8(_op1) ir_UNARY_OP_I8(IR_SEXT, (_op1))
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#define ir_SEXT_I16(_op1) ir_UNARY_OP_I16(IR_SEXT, (_op1))
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#define ir_SEXT_I32(_op1) ir_UNARY_OP_I32(IR_SEXT, (_op1))
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#define ir_SEXT_I64(_op1) ir_UNARY_OP_I64(IR_SEXT, (_op1))
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#define ir_ZEXT(_type, _op1) ir_UNARY_OP(IR_ZEXT, (_type), (_op1))
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#define ir_ZEXT_U8(_op1) ir_UNARY_OP_U8(IR_ZEXT, (_op1))
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#define ir_ZEXT_U16(_op1) ir_UNARY_OP_U16(IR_ZEXT, (_op1))
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#define ir_ZEXT_U32(_op1) ir_UNARY_OP_U32(IR_ZEXT, (_op1))
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#define ir_ZEXT_U64(_op1) ir_UNARY_OP_U64(IR_ZEXT, (_op1))
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#define ir_ZEXT_A(_op1) ir_UNARY_OP_A(IR_ZEXT, (_op1))
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#define ir_ZEXT_C(_op1) ir_UNARY_OP_C(IR_ZEXT, (_op1))
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#define ir_ZEXT_I8(_op1) ir_UNARY_OP_I8(IR_ZEXT, (_op1))
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#define ir_ZEXT_I16(_op1) ir_UNARY_OP_I16(IR_ZEXT, (_op1))
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#define ir_ZEXT_I32(_op1) ir_UNARY_OP_I32(IR_ZEXT, (_op1))
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#define ir_ZEXT_I64(_op1) ir_UNARY_OP_I64(IR_ZEXT, (_op1))
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#define ir_TRUNC(_type, _op1) ir_UNARY_OP(IR_TRUNC, (_type), (_op1))
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#define ir_TRUNC_U8(_op1) ir_UNARY_OP_U8(IR_TRUNC, (_op1))
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#define ir_TRUNC_U16(_op1) ir_UNARY_OP_U16(IR_TRUNC, (_op1))
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#define ir_TRUNC_U32(_op1) ir_UNARY_OP_U32(IR_TRUNC, (_op1))
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#define ir_TRUNC_U64(_op1) ir_UNARY_OP_U64(IR_TRUNC, (_op1))
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#define ir_TRUNC_A(_op1) ir_UNARY_OP_A(IR_TRUNC, (_op1))
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#define ir_TRUNC_C(_op1) ir_UNARY_OP_C(IR_TRUNC, (_op1))
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#define ir_TRUNC_I8(_op1) ir_UNARY_OP_I8(IR_TRUNC, (_op1))
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#define ir_TRUNC_I16(_op1) ir_UNARY_OP_I16(IR_TRUNC, (_op1))
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#define ir_TRUNC_I32(_op1) ir_UNARY_OP_I32(IR_TRUNC, (_op1))
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#define ir_TRUNC_I64(_op1) ir_UNARY_OP_I64(IR_TRUNC, (_op1))
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#define ir_BITCAST(_type, _op1) ir_UNARY_OP(IR_BITCAST, (_type), (_op1))
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#define ir_BITCAST_U8(_op1) ir_UNARY_OP_U8(IR_BITCAST, (_op1))
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#define ir_BITCAST_U16(_op1) ir_UNARY_OP_U16(IR_BITCAST, (_op1))
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#define ir_BITCAST_U32(_op1) ir_UNARY_OP_U32(IR_BITCAST, (_op1))
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#define ir_BITCAST_U64(_op1) ir_UNARY_OP_U64(IR_BITCAST, (_op1))
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#define ir_BITCAST_A(_op1) ir_UNARY_OP_A(IR_BITCAST, (_op1))
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#define ir_BITCAST_C(_op1) ir_UNARY_OP_C(IR_BITCAST, (_op1))
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#define ir_BITCAST_I8(_op1) ir_UNARY_OP_I8(IR_BITCAST, (_op1))
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#define ir_BITCAST_I16(_op1) ir_UNARY_OP_I16(IR_BITCAST, (_op1))
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#define ir_BITCAST_I32(_op1) ir_UNARY_OP_I32(IR_BITCAST, (_op1))
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#define ir_BITCAST_I64(_op1) ir_UNARY_OP_I64(IR_BITCAST, (_op1))
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#define ir_BITCAST_D(_op1) ir_UNARY_OP_D(IR_BITCAST, (_op1))
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#define ir_BITCAST_F(_op1) ir_UNARY_OP_F(IR_BITCAST, (_op1))
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#define ir_INT2FP(_type, _op1) ir_UNARY_OP(IR_INT2FP, (_type), (_op1))
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#define ir_INT2D(_op1) ir_UNARY_OP_D(IR_INT2FP, (_op1))
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#define ir_INT2F(_op1) ir_UNARY_OP_F(IR_INT2FP, (_op1))
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#define ir_FP2INT(_type, _op1) ir_UNARY_OP(IR_FP2INT, (_type), (_op1))
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#define ir_FP2U8(_op1) ir_UNARY_OP_U8(IR_FP2INT, (_op1))
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#define ir_FP2U16(_op1) ir_UNARY_OP_U16(IR_FP2INT, (_op1))
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#define ir_FP2U32(_op1) ir_UNARY_OP_U32(IR_FP2INT, (_op1))
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#define ir_FP2U64(_op1) ir_UNARY_OP_U64(IR_FP2INT, (_op1))
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#define ir_FP2I8(_op1) ir_UNARY_OP_I8(IR_FP2INT, (_op1))
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#define ir_FP2I16(_op1) ir_UNARY_OP_I16(IR_FP2INT, (_op1))
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#define ir_FP2I32(_op1) ir_UNARY_OP_I32(IR_FP2INT, (_op1))
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#define ir_FP2I64(_op1) ir_UNARY_OP_I64(IR_FP2INT, (_op1))
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#define ir_FP2FP(_type, _op1) ir_UNARY_OP(IR_FP2FP, (_type), (_op1))
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#define ir_F2D(_op1) ir_UNARY_OP_D(IR_FP2FP, (_op1))
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#define ir_D2F(_op1) ir_UNARY_OP_F(IR_FP2FP, (_op1))
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#define ir_ADD_OV(_type, _op1, _op2) ir_BINARY_OP(IR_ADD_OV, (_type), (_op1), (_op2))
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#define ir_ADD_OV_U8(_op1, _op2) ir_BINARY_OP_U8(IR_ADD_OV, (_op1), (_op2))
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#define ir_ADD_OV_U16(_op1, _op2) ir_BINARY_OP_U16(IR_ADD_OV, (_op1), (_op2))
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#define ir_ADD_OV_U32(_op1, _op2) ir_BINARY_OP_U32(IR_ADD_OV, (_op1), (_op2))
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#define ir_ADD_OV_U64(_op1, _op2) ir_BINARY_OP_U64(IR_ADD_OV, (_op1), (_op2))
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#define ir_ADD_OV_A(_op1, _op2) ir_BINARY_OP_A(IR_ADD_OV, (_op1), (_op2))
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#define ir_ADD_OV_C(_op1, _op2) ir_BINARY_OP_C(IR_ADD_OV, (_op1), (_op2))
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#define ir_ADD_OV_I8(_op1, _op2) ir_BINARY_OP_I8(IR_ADD_OV, (_op1), (_op2))
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#define ir_ADD_OV_I16(_op1, _op2) ir_BINARY_OP_I16(IR_ADD_OV, (_op1), (_op2))
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#define ir_ADD_OV_I32(_op1, _op2) ir_BINARY_OP_I32(IR_ADD_OV, (_op1), (_op2))
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#define ir_ADD_OV_I64(_op1, _op2) ir_BINARY_OP_I64(IR_ADD_OV, (_op1), (_op2))
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#define ir_SUB_OV(_type, _op1, _op2) ir_BINARY_OP(IR_SUB_OV, (_type), (_op1), (_op2))
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#define ir_SUB_OV_U8(_op1, _op2) ir_BINARY_OP_U8(IR_SUB_OV, (_op1), (_op2))
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#define ir_SUB_OV_U16(_op1, _op2) ir_BINARY_OP_U16(IR_SUB_OV, (_op1), (_op2))
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#define ir_SUB_OV_U32(_op1, _op2) ir_BINARY_OP_U32(IR_SUB_OV, (_op1), (_op2))
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#define ir_SUB_OV_U64(_op1, _op2) ir_BINARY_OP_U64(IR_SUB_OV, (_op1), (_op2))
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#define ir_SUB_OV_A(_op1, _op2) ir_BINARY_OP_A(IR_SUB_OV, (_op1), (_op2))
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#define ir_SUB_OV_C(_op1, _op2) ir_BINARY_OP_C(IR_SUB_OV, (_op1), (_op2))
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#define ir_SUB_OV_I8(_op1, _op2) ir_BINARY_OP_I8(IR_SUB_OV, (_op1), (_op2))
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#define ir_SUB_OV_I16(_op1, _op2) ir_BINARY_OP_I16(IR_SUB_OV, (_op1), (_op2))
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#define ir_SUB_OV_I32(_op1, _op2) ir_BINARY_OP_I32(IR_SUB_OV, (_op1), (_op2))
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#define ir_SUB_OV_I64(_op1, _op2) ir_BINARY_OP_I64(IR_SUB_OV, (_op1), (_op2))
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#define ir_MUL_OV(_type, _op1, _op2) ir_BINARY_OP(IR_MUL_OV, (_type), (_op1), (_op2))
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#define ir_MUL_OV_U8(_op1, _op2) ir_BINARY_OP_U8(IR_MUL_OV, (_op1), (_op2))
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#define ir_MUL_OV_U16(_op1, _op2) ir_BINARY_OP_U16(IR_MUL_OV, (_op1), (_op2))
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#define ir_MUL_OV_U32(_op1, _op2) ir_BINARY_OP_U32(IR_MUL_OV, (_op1), (_op2))
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#define ir_MUL_OV_U64(_op1, _op2) ir_BINARY_OP_U64(IR_MUL_OV, (_op1), (_op2))
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#define ir_MUL_OV_A(_op1, _op2) ir_BINARY_OP_A(IR_MUL_OV, (_op1), (_op2))
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#define ir_MUL_OV_C(_op1, _op2) ir_BINARY_OP_C(IR_MUL_OV, (_op1), (_op2))
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#define ir_MUL_OV_I8(_op1, _op2) ir_BINARY_OP_I8(IR_MUL_OV, (_op1), (_op2))
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#define ir_MUL_OV_I16(_op1, _op2) ir_BINARY_OP_I16(IR_MUL_OV, (_op1), (_op2))
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#define ir_MUL_OV_I32(_op1, _op2) ir_BINARY_OP_I32(IR_MUL_OV, (_op1), (_op2))
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#define ir_MUL_OV_I64(_op1, _op2) ir_BINARY_OP_I64(IR_MUL_OV, (_op1), (_op2))
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#define ir_OVERFLOW(_op1) ir_fold1(_ir_CTX, IR_OPT(IR_OVERFLOW, IR_BOOL), (_op1))
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#define ir_NOT(_type, _op1) ir_UNARY_OP(IR_NOT, (_type), (_op1))
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#define ir_NOT_B(_op1) ir_UNARY_OP_B(IR_NOT, (_op1))
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#define ir_NOT_U8(_op1) ir_UNARY_OP_U8(IR_NOT, (_op1))
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#define ir_NOT_U16(_op1) ir_UNARY_OP_U16(IR_NOT, (_op1))
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#define ir_NOT_U32(_op1) ir_UNARY_OP_U32(IR_NOT, (_op1))
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#define ir_NOT_U64(_op1) ir_UNARY_OP_U64(IR_NOT, (_op1))
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#define ir_NOT_A(_op1) ir_UNARY_OP_A(IR_NOT, (_op1))
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#define ir_NOT_C(_op1) ir_UNARY_OP_C(IR_NOT, (_op1))
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#define ir_NOT_I8(_op1) ir_UNARY_OP_I8(IR_NOT, (_op1))
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#define ir_NOT_I16(_op1) ir_UNARY_OP_I16(IR_NOT, (_op1))
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#define ir_NOT_I32(_op1) ir_UNARY_OP_I32(IR_NOT, (_op1))
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#define ir_NOT_I64(_op1) ir_UNARY_OP_I64(IR_NOT, (_op1))
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#define ir_OR(_type, _op1, _op2) ir_BINARY_OP(IR_OR, (_type), (_op1), (_op2))
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#define ir_OR_B(_op1, _op2) ir_BINARY_OP_B(IR_OR, (_op1), (_op2))
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#define ir_OR_U8(_op1, _op2) ir_BINARY_OP_U8(IR_OR, (_op1), (_op2))
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#define ir_OR_U16(_op1, _op2) ir_BINARY_OP_U16(IR_OR, (_op1), (_op2))
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#define ir_OR_U32(_op1, _op2) ir_BINARY_OP_U32(IR_OR, (_op1), (_op2))
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#define ir_OR_U64(_op1, _op2) ir_BINARY_OP_U64(IR_OR, (_op1), (_op2))
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#define ir_OR_A(_op1, _op2) ir_BINARY_OP_A(IR_OR, (_op1), (_op2))
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#define ir_OR_C(_op1, _op2) ir_BINARY_OP_C(IR_OR, (_op1), (_op2))
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#define ir_OR_I8(_op1, _op2) ir_BINARY_OP_I8(IR_OR, (_op1), (_op2))
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#define ir_OR_I16(_op1, _op2) ir_BINARY_OP_I16(IR_OR, (_op1), (_op2))
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#define ir_OR_I32(_op1, _op2) ir_BINARY_OP_I32(IR_OR, (_op1), (_op2))
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#define ir_OR_I64(_op1, _op2) ir_BINARY_OP_I64(IR_OR, (_op1), (_op2))
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#define ir_AND(_type, _op1, _op2) ir_BINARY_OP(IR_AND, (_type), (_op1), (_op2))
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#define ir_AND_B(_op1, _op2) ir_BINARY_OP_B(IR_AND, (_op1), (_op2))
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#define ir_AND_U8(_op1, _op2) ir_BINARY_OP_U8(IR_AND, (_op1), (_op2))
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#define ir_AND_U16(_op1, _op2) ir_BINARY_OP_U16(IR_AND, (_op1), (_op2))
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#define ir_AND_U32(_op1, _op2) ir_BINARY_OP_U32(IR_AND, (_op1), (_op2))
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#define ir_AND_U64(_op1, _op2) ir_BINARY_OP_U64(IR_AND, (_op1), (_op2))
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#define ir_AND_A(_op1, _op2) ir_BINARY_OP_A(IR_AND, (_op1), (_op2))
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#define ir_AND_C(_op1, _op2) ir_BINARY_OP_C(IR_AND, (_op1), (_op2))
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#define ir_AND_I8(_op1, _op2) ir_BINARY_OP_I8(IR_AND, (_op1), (_op2))
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#define ir_AND_I16(_op1, _op2) ir_BINARY_OP_I16(IR_AND, (_op1), (_op2))
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#define ir_AND_I32(_op1, _op2) ir_BINARY_OP_I32(IR_AND, (_op1), (_op2))
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#define ir_AND_I64(_op1, _op2) ir_BINARY_OP_I64(IR_AND, (_op1), (_op2))
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#define ir_XOR(_type, _op1, _op2) ir_BINARY_OP(IR_XOR, (_type), (_op1), (_op2))
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#define ir_XOR_B(_op1, _op2) ir_BINARY_OP_B(IR_XOR, (_op1), (_op2))
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#define ir_XOR_U8(_op1, _op2) ir_BINARY_OP_U8(IR_XOR, (_op1), (_op2))
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#define ir_XOR_U16(_op1, _op2) ir_BINARY_OP_U16(IR_XOR, (_op1), (_op2))
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#define ir_XOR_U32(_op1, _op2) ir_BINARY_OP_U32(IR_XOR, (_op1), (_op2))
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#define ir_XOR_U64(_op1, _op2) ir_BINARY_OP_U64(IR_XOR, (_op1), (_op2))
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#define ir_XOR_A(_op1, _op2) ir_BINARY_OP_A(IR_XOR, (_op1), (_op2))
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#define ir_XOR_C(_op1, _op2) ir_BINARY_OP_C(IR_XOR, (_op1), (_op2))
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#define ir_XOR_I8(_op1, _op2) ir_BINARY_OP_I8(IR_XOR, (_op1), (_op2))
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#define ir_XOR_I16(_op1, _op2) ir_BINARY_OP_I16(IR_XOR, (_op1), (_op2))
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#define ir_XOR_I32(_op1, _op2) ir_BINARY_OP_I32(IR_XOR, (_op1), (_op2))
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#define ir_XOR_I64(_op1, _op2) ir_BINARY_OP_I64(IR_XOR, (_op1), (_op2))
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#define ir_SHL(_type, _op1, _op2) ir_BINARY_OP(IR_SHL, (_type), (_op1), (_op2))
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#define ir_SHL_U8(_op1, _op2) ir_BINARY_OP_U8(IR_SHL, (_op1), (_op2))
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#define ir_SHL_U16(_op1, _op2) ir_BINARY_OP_U16(IR_SHL, (_op1), (_op2))
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#define ir_SHL_U32(_op1, _op2) ir_BINARY_OP_U32(IR_SHL, (_op1), (_op2))
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#define ir_SHL_U64(_op1, _op2) ir_BINARY_OP_U64(IR_SHL, (_op1), (_op2))
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#define ir_SHL_A(_op1, _op2) ir_BINARY_OP_A(IR_SHL, (_op1), (_op2))
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#define ir_SHL_C(_op1, _op2) ir_BINARY_OP_C(IR_SHL, (_op1), (_op2))
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#define ir_SHL_I8(_op1, _op2) ir_BINARY_OP_I8(IR_SHL, (_op1), (_op2))
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#define ir_SHL_I16(_op1, _op2) ir_BINARY_OP_I16(IR_SHL, (_op1), (_op2))
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#define ir_SHL_I32(_op1, _op2) ir_BINARY_OP_I32(IR_SHL, (_op1), (_op2))
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#define ir_SHL_I64(_op1, _op2) ir_BINARY_OP_I64(IR_SHL, (_op1), (_op2))
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#define ir_SHR(_type, _op1, _op2) ir_BINARY_OP(IR_SHR, (_type), (_op1), (_op2))
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#define ir_SHR_U8(_op1, _op2) ir_BINARY_OP_U8(IR_SHR, (_op1), (_op2))
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#define ir_SHR_U16(_op1, _op2) ir_BINARY_OP_U16(IR_SHR, (_op1), (_op2))
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#define ir_SHR_U32(_op1, _op2) ir_BINARY_OP_U32(IR_SHR, (_op1), (_op2))
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#define ir_SHR_U64(_op1, _op2) ir_BINARY_OP_U64(IR_SHR, (_op1), (_op2))
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#define ir_SHR_A(_op1, _op2) ir_BINARY_OP_A(IR_SHR, (_op1), (_op2))
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#define ir_SHR_C(_op1, _op2) ir_BINARY_OP_C(IR_SHR, (_op1), (_op2))
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#define ir_SHR_I8(_op1, _op2) ir_BINARY_OP_I8(IR_SHR, (_op1), (_op2))
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#define ir_SHR_I16(_op1, _op2) ir_BINARY_OP_I16(IR_SHR, (_op1), (_op2))
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#define ir_SHR_I32(_op1, _op2) ir_BINARY_OP_I32(IR_SHR, (_op1), (_op2))
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#define ir_SHR_I64(_op1, _op2) ir_BINARY_OP_I64(IR_SHR, (_op1), (_op2))
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#define ir_SAR(_type, _op1, _op2) ir_BINARY_OP(IR_SAR, (_type), (_op1), (_op2))
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#define ir_SAR_U8(_op1, _op2) ir_BINARY_OP_U8(IR_SAR, (_op1), (_op2))
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#define ir_SAR_U16(_op1, _op2) ir_BINARY_OP_U16(IR_SAR, (_op1), (_op2))
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#define ir_SAR_U32(_op1, _op2) ir_BINARY_OP_U32(IR_SAR, (_op1), (_op2))
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#define ir_SAR_U64(_op1, _op2) ir_BINARY_OP_U64(IR_SAR, (_op1), (_op2))
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#define ir_SAR_A(_op1, _op2) ir_BINARY_OP_A(IR_SAR, (_op1), (_op2))
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#define ir_SAR_C(_op1, _op2) ir_BINARY_OP_C(IR_SAR, (_op1), (_op2))
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#define ir_SAR_I8(_op1, _op2) ir_BINARY_OP_I8(IR_SAR, (_op1), (_op2))
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#define ir_SAR_I16(_op1, _op2) ir_BINARY_OP_I16(IR_SAR, (_op1), (_op2))
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#define ir_SAR_I32(_op1, _op2) ir_BINARY_OP_I32(IR_SAR, (_op1), (_op2))
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#define ir_SAR_I64(_op1, _op2) ir_BINARY_OP_I64(IR_SAR, (_op1), (_op2))
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#define ir_ROL(_type, _op1, _op2) ir_BINARY_OP(IR_ROL, (_type), (_op1), (_op2))
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#define ir_ROL_U8(_op1, _op2) ir_BINARY_OP_U8(IR_ROL, (_op1), (_op2))
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#define ir_ROL_U16(_op1, _op2) ir_BINARY_OP_U16(IR_ROL, (_op1), (_op2))
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#define ir_ROL_U32(_op1, _op2) ir_BINARY_OP_U32(IR_ROL, (_op1), (_op2))
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#define ir_ROL_U64(_op1, _op2) ir_BINARY_OP_U64(IR_ROL, (_op1), (_op2))
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#define ir_ROL_A(_op1, _op2) ir_BINARY_OP_A(IR_ROL, (_op1), (_op2))
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#define ir_ROL_C(_op1, _op2) ir_BINARY_OP_C(IR_ROL, (_op1), (_op2))
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#define ir_ROL_I8(_op1, _op2) ir_BINARY_OP_I8(IR_ROL, (_op1), (_op2))
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#define ir_ROL_I16(_op1, _op2) ir_BINARY_OP_I16(IR_ROL, (_op1), (_op2))
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#define ir_ROL_I32(_op1, _op2) ir_BINARY_OP_I32(IR_ROL, (_op1), (_op2))
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#define ir_ROL_I64(_op1, _op2) ir_BINARY_OP_I64(IR_ROL, (_op1), (_op2))
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#define ir_ROR(_type, _op1, _op2) ir_BINARY_OP(IR_ROR, (_type), (_op1), (_op2))
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#define ir_ROR_U8(_op1, _op2) ir_BINARY_OP_U8(IR_ROR, (_op1), (_op2))
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#define ir_ROR_U16(_op1, _op2) ir_BINARY_OP_U16(IR_ROR, (_op1), (_op2))
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#define ir_ROR_U32(_op1, _op2) ir_BINARY_OP_U32(IR_ROR, (_op1), (_op2))
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#define ir_ROR_U64(_op1, _op2) ir_BINARY_OP_U64(IR_ROR, (_op1), (_op2))
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#define ir_ROR_A(_op1, _op2) ir_BINARY_OP_A(IR_ROR, (_op1), (_op2))
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#define ir_ROR_C(_op1, _op2) ir_BINARY_OP_C(IR_ROR, (_op1), (_op2))
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#define ir_ROR_I8(_op1, _op2) ir_BINARY_OP_I8(IR_ROR, (_op1), (_op2))
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#define ir_ROR_I16(_op1, _op2) ir_BINARY_OP_I16(IR_ROR, (_op1), (_op2))
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#define ir_ROR_I32(_op1, _op2) ir_BINARY_OP_I32(IR_ROR, (_op1), (_op2))
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#define ir_ROR_I64(_op1, _op2) ir_BINARY_OP_I64(IR_ROR, (_op1), (_op2))
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#define ir_BSWAP(_type, _op1) ir_UNARY_OP(IR_BSWAP, (_type), (_op1))
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#define ir_BSWAP_U16(_op1) ir_UNARY_OP_U16(IR_BSWAP, (_op1))
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#define ir_BSWAP_U32(_op1) ir_UNARY_OP_U32(IR_BSWAP, (_op1))
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#define ir_BSWAP_U64(_op1) ir_UNARY_OP_U64(IR_BSWAP, (_op1))
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#define ir_BSWAP_A(_op1) ir_UNARY_OP_A(IR_BSWAP, (_op1))
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#define ir_BSWAP_I16(_op1) ir_UNARY_OP_I16(IR_BSWAP, (_op1))
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#define ir_BSWAP_I32(_op1) ir_UNARY_OP_I32(IR_BSWAP, (_op1))
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#define ir_BSWAP_I64(_op1) ir_UNARY_OP_I64(IR_BSWAP, (_op1))
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#define ir_MIN(_type, _op1, _op2) ir_BINARY_OP(IR_MIN, (_type), (_op1), (_op2))
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#define ir_MIN_U8(_op1, _op2) ir_BINARY_OP_U8(IR_MIN, (_op1), (_op2))
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#define ir_MIN_U16(_op1, _op2) ir_BINARY_OP_U16(IR_MIN, (_op1), (_op2))
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#define ir_MIN_U32(_op1, _op2) ir_BINARY_OP_U32(IR_MIN, (_op1), (_op2))
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#define ir_MIN_U64(_op1, _op2) ir_BINARY_OP_U64(IR_MIN, (_op1), (_op2))
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#define ir_MIN_A(_op1, _op2) ir_BINARY_OP_A(IR_MIN, (_op1), (_op2))
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#define ir_MIN_C(_op1, _op2) ir_BINARY_OP_C(IR_MIN, (_op1), (_op2))
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#define ir_MIN_I8(_op1, _op2) ir_BINARY_OP_I8(IR_MIN, (_op1), (_op2))
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#define ir_MIN_I16(_op1, _op2) ir_BINARY_OP_I16(IR_MIN, (_op1), (_op2))
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#define ir_MIN_I32(_op1, _op2) ir_BINARY_OP_I32(IR_MIN, (_op1), (_op2))
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#define ir_MIN_I64(_op1, _op2) ir_BINARY_OP_I64(IR_MIN, (_op1), (_op2))
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#define ir_MIN_D(_op1, _op2) ir_BINARY_OP_D(IR_MIN, (_op1), (_op2))
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#define ir_MIN_F(_op1, _op2) ir_BINARY_OP_F(IR_MIN, (_op1), (_op2))
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#define ir_MAX(_type, _op1, _op2) ir_BINARY_OP(IR_MAX, (_type), (_op1), (_op2))
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#define ir_MAX_U8(_op1, _op2) ir_BINARY_OP_U8(IR_MAX, (_op1), (_op2))
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#define ir_MAX_U16(_op1, _op2) ir_BINARY_OP_U16(IR_MAX, (_op1), (_op2))
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#define ir_MAX_U32(_op1, _op2) ir_BINARY_OP_U32(IR_MAX, (_op1), (_op2))
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#define ir_MAX_U64(_op1, _op2) ir_BINARY_OP_U64(IR_MAX, (_op1), (_op2))
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#define ir_MAX_A(_op1, _op2) ir_BINARY_OP_A(IR_MAX, (_op1), (_op2))
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#define ir_MAX_C(_op1, _op2) ir_BINARY_OP_C(IR_MAX, (_op1), (_op2))
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#define ir_MAX_I8(_op1, _op2) ir_BINARY_OP_I8(IR_MAX, (_op1), (_op2))
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#define ir_MAX_I16(_op1, _op2) ir_BINARY_OP_I16(IR_MAX, (_op1), (_op2))
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#define ir_MAX_I32(_op1, _op2) ir_BINARY_OP_I32(IR_MAX, (_op1), (_op2))
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#define ir_MAX_I64(_op1, _op2) ir_BINARY_OP_I64(IR_MAX, (_op1), (_op2))
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#define ir_MAX_D(_op1, _op2) ir_BINARY_OP_D(IR_MAX, (_op1), (_op2))
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#define ir_MAX_F(_op1, _op2) ir_BINARY_OP_F(IR_MAX, (_op1), (_op2))
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#define ir_COND(_type, _op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, (_type)), (_op1), (_op2), (_op3))
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#define ir_COND_U8(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_U8), (_op1), (_op2), (_op3))
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#define ir_COND_U16(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_U16), (_op1), (_op2), (_op3))
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#define ir_COND_U32(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_U32), (_op1), (_op2), (_op3))
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#define ir_COND_U64(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_U64), (_op1), (_op2), (_op3))
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#define ir_COND_A(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_ADDR), (_op1), (_op2), (_op3))
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#define ir_COND_C(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_CHAR), (_op1), (_op2), (_op3))
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#define ir_COND_I8(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_I8), (_op1), (_op2), (_op3))
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#define ir_COND_I16(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COMD, IR_I16), (_op1), (_op2), (_op3))
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#define ir_COND_I32(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_I32), (_op1), (_op2), (_op3))
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#define ir_COND_I64(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_I64), (_op1), (_op2), (_op3))
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#define ir_COND_D(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_DOUBLE), (_op1), (_op2), (_op3))
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#define ir_COND_F(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_FLOAT), (_op1), (_op2), (_op3))
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#define ir_PHI_2(type, _src1, _src2) _ir_PHI_2(_ir_CTX, type, (_src1), (_src2))
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#define ir_PHI_N(type, _n, _inputs) _ir_PHI_N(_ir_CTX, type, (_n), (_inputs))
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#define ir_PHI_SET_OP(_ref, _pos, _src) _ir_PHI_SET_OP(_ir_CTX, (_ref), (_pos), (_src))
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#define ir_COPY(_type, _op1) ir_UNARY_OP(IR_COPY, (_type), (_op1))
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#define ir_COPY_B(_op1) ir_UNARY_OP_B(IR_COPY, (_op1))
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#define ir_COPY_U8(_op1) ir_UNARY_OP_U8(IR_COPY, (_op1))
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#define ir_COPY_U16(_op1) ir_UNARY_OP_U16(IR_COPY, (_op1))
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#define ir_COPY_U32(_op1) ir_UNARY_OP_U32(IR_COPY, (_op1))
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#define ir_COPY_U64(_op1) ir_UNARY_OP_U64(IR_COPY, (_op1))
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#define ir_COPY_A(_op1) ir_UNARY_OP_A(IR_COPY, (_op1))
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#define ir_COPY_C(_op1) ir_UNARY_OP_C(IR_COPY, (_op1))
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#define ir_COPY_I8(_op1) ir_UNARY_OP_I8(IR_COPY, (_op1))
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#define ir_COPY_I16(_op1) ir_UNARY_OP_I16(IR_COPY, (_op1))
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#define ir_COPY_I32(_op1) ir_UNARY_OP_I32(IR_COPY, (_op1))
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#define ir_COPY_I64(_op1) ir_UNARY_OP_I64(IR_COPY, (_op1))
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#define ir_COPY_D(_op1) ir_UNARY_OP_D(IR_COPY, (_op1))
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#define ir_COPY_F(_op1) ir_UNARY_OP_F(IR_COPY, (_op1))
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/* Helper to add address with a constant offset */
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#define ir_ADD_OFFSET(_addr, _offset) _ir_ADD_OFFSET(_ir_CTX, (_addr), (_offset))
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/* Unfoldable variant of COPY */
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#define ir_HARD_COPY(_type, _op1) ir_BINARY_OP(IR_COPY, (_type), (_op1), 1)
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#define ir_HARD_COPY_B(_op1) ir_BINARY_OP_B(IR_COPY, (_op1), 1)
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#define ir_HARD_COPY_U8(_op1) ir_BINARY_OP_U8(IR_COPY, (_op1), 1)
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#define ir_HARD_COPY_U16(_op1) ir_BINARY_OP_U16(IR_COPY, (_op1), 1)
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#define ir_HARD_COPY_U32(_op1) ir_BINARY_OP_U32(IR_COPY, (_op1), 1)
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#define ir_HARD_COPY_U64(_op1) ir_BINARY_OP_U64(IR_COPY, (_op1), 1)
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#define ir_HARD_COPY_A(_op1) ir_BINARY_OP_A(IR_COPY, (_op1), 1)
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#define ir_HARD_COPY_C(_op1) ir_BINARY_OP_C(IR_COPY, (_op1), 1)
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#define ir_HARD_COPY_I8(_op1) ir_BINARY_OP_I8(IR_COPY, (_op1), 1)
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#define ir_HARD_COPY_I16(_op1) ir_BINARY_OP_I16(IR_COPY, (_op1), 1)
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#define ir_HARD_COPY_I32(_op1) ir_BINARY_OP_I32(IR_COPY, (_op1), 1)
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#define ir_HARD_COPY_I64(_op1) ir_BINARY_OP_I64(IR_COPY, (_op1), 1)
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#define ir_HARD_COPY_D(_op1) ir_BINARY_OP_D(IR_COPY, (_op1), 1)
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|
#define ir_HARD_COPY_F(_op1) ir_BINARY_OP_F(IR_COPY, (_op1), 1)
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|
|
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#define ir_PARAM(_type, _name, _num) _ir_PARAM(_ir_CTX, (_type), (_name), (_num))
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#define ir_VAR(_type, _name) _ir_VAR(_ir_CTX, (_type), (_name))
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#define ir_CALL(type, func) _ir_CALL(_ir_CTX, type, func)
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|
#define ir_CALL_1(type, func, a1) _ir_CALL_1(_ir_CTX, type, func, a1)
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|
#define ir_CALL_2(type, func, a1, a2) _ir_CALL_2(_ir_CTX, type, func, a1, a2)
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#define ir_CALL_3(type, func, a1, a2, a3) _ir_CALL_3(_ir_CTX, type, func, a1, a2, a3)
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#define ir_CALL_4(type, func, a1, a2, a3, a4) _ir_CALL_4(_ir_CTX, type, func, a1, a2, a3, a4)
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#define ir_CALL_5(type, func, a1, a2, a3, a4, a5) _ir_CALL_5(_ir_CTX, type, func, a1, a2, a3, a4, a5)
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|
#define ir_CALL_N(type, func, count, args) _ir_CALL_N(_ir_CTX, type, func, count, args)
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|
|
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#define ir_TAILCALL(func) _ir_TAILCALL(_ir_CTX, func)
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|
#define ir_TAILCALL_1(func, a1) _ir_TAILCALL_1(_ir_CTX, func, a1)
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|
#define ir_TAILCALL_2(func, a1, a2) _ir_TAILCALL_2(_ir_CTX, func, a1, a2)
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#define ir_TAILCALL_3(func, a1, a2, a3) _ir_TAILCALL_3(_ir_CTX, func, a1, a2, a3)
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#define ir_TAILCALL_4(func, a1, a2, a3, a4) _ir_TAILCALL_4(_ir_CTX, func, a1, a2, a3, a4)
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#define ir_TAILCALL_5(func, a1, a2, a3, a4, a5) _ir_TAILCALL_5(_ir_CTX, func, a1, a2, a3, a4, a5)
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#define ir_TAILCALL_N(func, count, args) _ir_TAILCALL_N(_ir_CTX, func, count, args)
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|
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#define ir_ALLOCA(_size) _ir_ALLOCA(_ir_CTX, (_size))
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|
#define ir_AFREE(_size) _ir_AFREE(_ir_CTX, (_size))
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|
#define ir_VADDR(_var) ir_emit1(_ir_CTX, IR_OPT(IR_VADDR, IR_ADDR), (_var))
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|
#define ir_VLOAD(_type, _var) _ir_VLOAD(_ir_CTX, (_type), (_var))
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#define ir_VLOAD_B(_var) _ir_VLOAD(_ir_CTX, IR_BOOL, (_var))
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#define ir_VLOAD_U8(_var) _ir_VLOAD(_ir_CTX, IR_U8, (_var))
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#define ir_VLOAD_U16(_var) _ir_VLOAD(_ir_CTX, IR_U16, (_var))
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#define ir_VLOAD_U32(_var) _ir_VLOAD(_ir_CTX, IR_U32, (_var))
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#define ir_VLOAD_U64(_var) _ir_VLOAD(_ir_CTX, IR_U64, (_var))
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#define ir_VLOAD_A(_var) _ir_VLOAD(_ir_CTX, IR_ADDR, (_var))
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#define ir_VLOAD_C(_var) _ir_VLOAD(_ir_CTX, IR_CHAR, (_var))
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#define ir_VLOAD_I8(_var) _ir_VLOAD(_ir_CTX, IR_I8, (_var))
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#define ir_VLOAD_I16(_var) _ir_VLOAD(_ir_CTX, IR_I16, (_var))
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#define ir_VLOAD_I32(_var) _ir_VLOAD(_ir_CTX, IR_I32, (_var))
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#define ir_VLOAD_I64(_var) _ir_VLOAD(_ir_CTX, IR_I64, (_var))
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#define ir_VLOAD_D(_var) _ir_VLOAD(_ir_CTX, IR_DOUBLE, (_var))
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#define ir_VLOAD_F(_var) _ir_VLOAD(_ir_CTX, IR_FLOAT, (_var))
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#define ir_VSTORE(_var, _val) _ir_VSTORE(_ir_CTX, (_var), (_val))
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|
#define ir_RLOAD(_type, _reg) _ir_RLOAD(_ir_CTX, (_type), (_reg))
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#define ir_RLOAD_B(_reg) _ir_RLOAD(_ir_CTX, IR_BOOL, (_reg))
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#define ir_RLOAD_U8(_reg) _ir_RLOAD(_ir_CTX, IR_U8, (_reg))
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|
#define ir_RLOAD_U16(_reg) _ir_RLOAD(_ir_CTX, IR_U16, (_reg))
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#define ir_RLOAD_U32(_reg) _ir_RLOAD(_ir_CTX, IR_U32, (_reg))
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#define ir_RLOAD_U64(_reg) _ir_RLOAD(_ir_CTX, IR_U64, (_reg))
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|
#define ir_RLOAD_A(_reg) _ir_RLOAD(_ir_CTX, IR_ADDR, (_reg))
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#define ir_RLOAD_C(_reg) _ir_RLOAD(_ir_CTX, IR_CHAR, (_reg))
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#define ir_RLOAD_I8(_reg) _ir_RLOAD(_ir_CTX, IR_I8, (_reg))
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|
#define ir_RLOAD_I16(_reg) _ir_RLOAD(_ir_CTX, IR_I16, (_reg))
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#define ir_RLOAD_I32(_reg) _ir_RLOAD(_ir_CTX, IR_I32, (_reg))
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#define ir_RLOAD_I64(_reg) _ir_RLOAD(_ir_CTX, IR_I64, (_reg))
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#define ir_RLOAD_D(_reg) _ir_RLOAD(_ir_CTX, IR_DOUBLE, (_reg))
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#define ir_RLOAD_F(_reg) _ir_RLOAD(_ir_CTX, IR_FLOAT, (_reg))
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|
#define ir_RSTORE(_reg, _val) _ir_RSTORE(_ir_CTX, (_reg), (_val))
|
|
#define ir_LOAD(_type, _addr) _ir_LOAD(_ir_CTX, (_type), (_addr))
|
|
#define ir_LOAD_B(_addr) _ir_LOAD(_ir_CTX, IR_BOOL, (_addr))
|
|
#define ir_LOAD_U8(_addr) _ir_LOAD(_ir_CTX, IR_U8, (_addr))
|
|
#define ir_LOAD_U16(_addr) _ir_LOAD(_ir_CTX, IR_U16, (_addr))
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|
#define ir_LOAD_U32(_addr) _ir_LOAD(_ir_CTX, IR_U32, (_addr))
|
|
#define ir_LOAD_U64(_addr) _ir_LOAD(_ir_CTX, IR_U64, (_addr))
|
|
#define ir_LOAD_A(_addr) _ir_LOAD(_ir_CTX, IR_ADDR, (_addr))
|
|
#define ir_LOAD_C(_addr) _ir_LOAD(_ir_CTX, IR_CHAR, (_addr))
|
|
#define ir_LOAD_I8(_addr) _ir_LOAD(_ir_CTX, IR_I8, (_addr))
|
|
#define ir_LOAD_I16(_addr) _ir_LOAD(_ir_CTX, IR_I16, (_addr))
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|
#define ir_LOAD_I32(_addr) _ir_LOAD(_ir_CTX, IR_I32, (_addr))
|
|
#define ir_LOAD_I64(_addr) _ir_LOAD(_ir_CTX, IR_I64, (_addr))
|
|
#define ir_LOAD_D(_addr) _ir_LOAD(_ir_CTX, IR_DOUBLE, (_addr))
|
|
#define ir_LOAD_F(_addr) _ir_LOAD(_ir_CTX, IR_FLOAT, (_addr))
|
|
#define ir_STORE(_addr, _val) _ir_STORE(_ir_CTX, (_addr), (_val))
|
|
#define ir_TLS(_index, _offset) _ir_TLS(_ir_CTX, (_index), (_offset))
|
|
#define ir_TRAP() do {_ir_CTX->control = ir_emit1(_ir_CTX, IR_TRAP, _ir_CTX->control);} while (0)
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|
|
#define ir_START() _ir_START(_ir_CTX)
|
|
#define ir_ENTRY(_src, _num) _ir_ENTRY(_ir_CTX, (_src), (_num))
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|
#define ir_BEGIN(_src) _ir_BEGIN(_ir_CTX, (_src))
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|
#define ir_IF(_condition) _ir_IF(_ir_CTX, (_condition))
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|
#define ir_IF_TRUE(_if) _ir_IF_TRUE(_ir_CTX, (_if))
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|
#define ir_IF_TRUE_cold(_if) _ir_IF_TRUE_cold(_ir_CTX, (_if))
|
|
#define ir_IF_FALSE(_if) _ir_IF_FALSE(_ir_CTX, (_if))
|
|
#define ir_IF_FALSE_cold(_if) _ir_IF_FALSE_cold(_ir_CTX, (_if))
|
|
#define ir_END() _ir_END(_ir_CTX)
|
|
#define ir_MERGE_2(_src1, _src2) _ir_MERGE_2(_ir_CTX, (_src1), (_src2))
|
|
#define ir_MERGE_N(_n, _inputs) _ir_MERGE_N(_ir_CTX, (_n), (_inputs))
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|
#define ir_MERGE_SET_OP(_ref, _pos, _src) _ir_MERGE_SET_OP(_ir_CTX, (_ref), (_pos), (_src))
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|
#define ir_LOOP_BEGIN(_src1) _ir_LOOP_BEGIN(_ir_CTX, (_src1))
|
|
#define ir_LOOP_END() _ir_LOOP_END(_ir_CTX)
|
|
#define ir_SWITCH(_val) _ir_SWITCH(_ir_CTX, (_val))
|
|
#define ir_CASE_VAL(_switch, _val) _ir_CASE_VAL(_ir_CTX, (_switch), (_val))
|
|
#define ir_CASE_DEFAULT(_switch) _ir_CASE_DEFAULT(_ir_CTX, (_switch))
|
|
#define ir_RETURN(_val) _ir_RETURN(_ir_CTX, (_val))
|
|
#define ir_IJMP(_addr) _ir_IJMP(_ir_CTX, (_addr))
|
|
#define ir_UNREACHABLE() _ir_UNREACHABLE(_ir_CTX)
|
|
|
|
#define ir_GUARD(_condition, _addr) _ir_GUARD(_ir_CTX, (_condition), (_addr))
|
|
#define ir_GUARD_NOT(_condition, _addr) _ir_GUARD_NOT(_ir_CTX, (_condition), (_addr))
|
|
|
|
#define ir_SNAPSHOT(_n) _ir_SNAPSHOT(_ir_CTX, (_n))
|
|
#define ir_SNAPSHOT_SET_OP(_s, _pos, _v) _ir_SNAPSHOT_SET_OP(_ir_CTX, (_s), (_pos), (_v))
|
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|
|
#define ir_EXITCALL(_func) _ir_EXITCALL(_ir_CTX,(_func))
|
|
|
|
#define ir_END_list(_list) do { _list = _ir_END_LIST(_ir_CTX, _list); } while (0)
|
|
#define ir_MERGE_list(_list) _ir_MERGE_LIST(_ir_CTX, (_list))
|
|
|
|
#define ir_MERGE_WITH(_src2) do {ir_ref end = ir_END(); ir_MERGE_2(end, _src2);} while (0)
|
|
#define ir_MERGE_WITH_EMPTY_TRUE(_if) do {ir_ref end = ir_END(); ir_IF_TRUE(_if); ir_MERGE_2(end, ir_END());} while (0)
|
|
#define ir_MERGE_WITH_EMPTY_FALSE(_if) do {ir_ref end = ir_END(); ir_IF_FALSE(_if); ir_MERGE_2(end, ir_END());} while (0)
|
|
|
|
ir_ref _ir_ADD_OFFSET(ir_ctx *ctx, ir_ref addr, uintptr_t offset);
|
|
ir_ref _ir_PHI_2(ir_ctx *ctx, ir_type type, ir_ref src1, ir_ref src2);
|
|
ir_ref _ir_PHI_N(ir_ctx *ctx, ir_type type, ir_ref n, ir_ref *inputs);
|
|
void _ir_PHI_SET_OP(ir_ctx *ctx, ir_ref phi, ir_ref pos, ir_ref src);
|
|
ir_ref _ir_PARAM(ir_ctx *ctx, ir_type type, const char* name, ir_ref num);
|
|
ir_ref _ir_VAR(ir_ctx *ctx, ir_type type, const char* name);
|
|
ir_ref _ir_CALL(ir_ctx *ctx, ir_type type, ir_ref func);
|
|
ir_ref _ir_CALL_1(ir_ctx *ctx, ir_type type, ir_ref func, ir_ref arg1);
|
|
ir_ref _ir_CALL_2(ir_ctx *ctx, ir_type type, ir_ref func, ir_ref arg1, ir_ref arg2);
|
|
ir_ref _ir_CALL_3(ir_ctx *ctx, ir_type type, ir_ref func, ir_ref arg1, ir_ref arg2, ir_ref arg3);
|
|
ir_ref _ir_CALL_4(ir_ctx *ctx, ir_type type, ir_ref func, ir_ref arg1, ir_ref arg2, ir_ref arg3, ir_ref arg4);
|
|
ir_ref _ir_CALL_5(ir_ctx *ctx, ir_type type, ir_ref func, ir_ref arg1, ir_ref arg2, ir_ref arg3, ir_ref arg4, ir_ref arg5);
|
|
ir_ref _ir_CALL_N(ir_ctx *ctx, ir_type type, ir_ref func, uint32_t count, ir_ref *args);
|
|
void _ir_TAILCALL(ir_ctx *ctx, ir_ref func);
|
|
void _ir_TAILCALL_1(ir_ctx *ctx, ir_ref func, ir_ref arg1);
|
|
void _ir_TAILCALL_2(ir_ctx *ctx, ir_ref func, ir_ref arg1, ir_ref arg2);
|
|
void _ir_TAILCALL_3(ir_ctx *ctx, ir_ref func, ir_ref arg1, ir_ref arg2, ir_ref arg3);
|
|
void _ir_TAILCALL_4(ir_ctx *ctx, ir_ref func, ir_ref arg1, ir_ref arg2, ir_ref arg3, ir_ref arg4);
|
|
void _ir_TAILCALL_5(ir_ctx *ctx, ir_ref func, ir_ref arg1, ir_ref arg2, ir_ref arg3, ir_ref arg4, ir_ref arg5);
|
|
ir_ref _ir_TAILCALL_N(ir_ctx *ctx, ir_ref func, uint32_t count, ir_ref *args);
|
|
ir_ref _ir_ALLOCA(ir_ctx *ctx, ir_ref size);
|
|
void _ir_AFREE(ir_ctx *ctx, ir_ref size);
|
|
ir_ref _ir_VLOAD(ir_ctx *ctx, ir_type type, ir_ref var);
|
|
void _ir_VSTORE(ir_ctx *ctx, ir_ref var, ir_ref val);
|
|
ir_ref _ir_RLOAD(ir_ctx *ctx, ir_type type, ir_ref reg);
|
|
void _ir_RSTORE(ir_ctx *ctx, ir_ref reg, ir_ref val);
|
|
ir_ref _ir_LOAD(ir_ctx *ctx, ir_type type, ir_ref addr);
|
|
void _ir_STORE(ir_ctx *ctx, ir_ref addr, ir_ref val);
|
|
void _ir_START(ir_ctx *ctx);
|
|
void _ir_ENTRY(ir_ctx *ctx, ir_ref src, ir_ref num);
|
|
void _ir_BEGIN(ir_ctx *ctx, ir_ref src);
|
|
ir_ref _ir_END(ir_ctx *ctx);
|
|
ir_ref _ir_END_LIST(ir_ctx *ctx, ir_ref list);
|
|
ir_ref _ir_IF(ir_ctx *ctx, ir_ref condition);
|
|
void _ir_IF_TRUE(ir_ctx *ctx, ir_ref if_ref);
|
|
void _ir_IF_TRUE_cold(ir_ctx *ctx, ir_ref if_ref);
|
|
void _ir_IF_FALSE(ir_ctx *ctx, ir_ref if_ref);
|
|
void _ir_IF_FALSE_cold(ir_ctx *ctx, ir_ref if_ref);
|
|
void _ir_MERGE_2(ir_ctx *ctx, ir_ref src1, ir_ref src2);
|
|
void _ir_MERGE_N(ir_ctx *ctx, ir_ref n, ir_ref *inputs);
|
|
void _ir_MERGE_SET_OP(ir_ctx *ctx, ir_ref merge, ir_ref pos, ir_ref src);
|
|
void _ir_MERGE_LIST(ir_ctx *ctx, ir_ref list);
|
|
ir_ref _ir_LOOP_BEGIN(ir_ctx *ctx, ir_ref src1);
|
|
ir_ref _ir_LOOP_END(ir_ctx *ctx);
|
|
ir_ref _ir_TLS(ir_ctx *ctx, ir_ref index, ir_ref offset);
|
|
void _ir_UNREACHABLE(ir_ctx *ctx);
|
|
ir_ref _ir_SWITCH(ir_ctx *ctx, ir_ref val);
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void _ir_CASE_VAL(ir_ctx *ctx, ir_ref switch_ref, ir_ref val);
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void _ir_CASE_DEFAULT(ir_ctx *ctx, ir_ref switch_ref);
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void _ir_RETURN(ir_ctx *ctx, ir_ref val);
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void _ir_IJMP(ir_ctx *ctx, ir_ref addr);
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void _ir_GUARD(ir_ctx *ctx, ir_ref condition, ir_ref addr);
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void _ir_GUARD_NOT(ir_ctx *ctx, ir_ref condition, ir_ref addr);
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ir_ref _ir_SNAPSHOT(ir_ctx *ctx, ir_ref n);
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void _ir_SNAPSHOT_SET_OP(ir_ctx *ctx, ir_ref snapshot, ir_ref pos, ir_ref val);
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ir_ref _ir_EXITCALL(ir_ctx *ctx, ir_ref func);
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#ifdef __cplusplus
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} /* extern "C" */
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#endif
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#endif /* IR_BUILDER_H */
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