/* * IR - Lightweight JIT Compilation Framework * (IR Construction API) * Copyright (C) 2022 Zend by Perforce. * Authors: Dmitry Stogov */ #ifndef IR_BUILDER_H #define IR_BUILDER_H #ifdef __cplusplus extern "C" { #endif /* _ir_CTX may be redefined by the user */ #define _ir_CTX ctx #define ir_NOP() ir_emit0(_ir_CTX, IR_NOP) #define ir_CONST_BOOL(_val) ir_const_bool(_ir_CTX, (_val)) #define ir_CONST_U8(_val) ir_const_u8(_ir_CTX, (_val)) #define ir_CONST_U16(_val) ir_const_u16(_ir_CTX, (_val)) #define ir_CONST_U32(_val) ir_const_u32(_ir_CTX, (_val)) #define ir_CONST_U64(_val) ir_const_u64(_ir_CTX, (_val)) #define ir_CONST_ADDR(_val) ir_const_addr(_ir_CTX, (uintptr_t)(_val)) #define ir_CONST_CHAR(_val) ir_const_char(_ir_CTX, (_val)) #define ir_CONST_I8(_val) ir_const_i8(_ir_CTX, (_val)) #define ir_CONST_I16(_val) ir_const_i16(_ir_CTX, (_val)) #define ir_CONST_I32(_val) ir_const_i32(_ir_CTX, (_val)) #define ir_CONST_I64(_val) ir_const_i64(_ir_CTX, (_val)) #define ir_CONST_DOUBLE(_val) ir_const_double(_ir_CTX, (_val)) #define ir_CONST_FLOAT(_val) ir_const_float(_ir_CTX, (_val)) #define ir_CMP_OP(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_BOOL), (_op1), (_op2)) #define ir_UNARY_OP_B(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_BOOL), (_op1)) #define ir_UNARY_OP_U8(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_U8), (_op1)) #define ir_UNARY_OP_U16(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_U16), (_op1)) #define ir_UNARY_OP_U32(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_U32), (_op1)) #define ir_UNARY_OP_U64(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_U64), (_op1)) #define ir_UNARY_OP_A(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_ADDR), (_op1)) #define ir_UNARY_OP_C(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_CHAR), (_op1)) #define ir_UNARY_OP_I8(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_I8), (_op1)) #define ir_UNARY_OP_I16(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_I16), (_op1)) #define ir_UNARY_OP_I32(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_I32), (_op1)) #define ir_UNARY_OP_I64(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_I64), (_op1)) #define ir_UNARY_OP_D(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_DOUBLE), (_op1)) #define ir_UNARY_OP_F(_op, _op1) ir_fold1(_ir_CTX, IR_OPT((_op), IR_FLOAT), (_op1)) #define ir_BINARY_OP_B(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_BOOL), (_op1), (_op2)) #define ir_BINARY_OP_U8(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_U8), (_op1), (_op2)) #define ir_BINARY_OP_U16(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_U16), (_op1), (_op2)) #define ir_BINARY_OP_U32(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_U32), (_op1), (_op2)) #define ir_BINARY_OP_U64(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_U64), (_op1), (_op2)) #define ir_BINARY_OP_A(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_ADDR), (_op1), (_op2)) #define ir_BINARY_OP_C(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_CHAR), (_op1), (_op2)) #define ir_BINARY_OP_I8(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_I8), (_op1), (_op2)) #define ir_BINARY_OP_I16(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_I16), (_op1), (_op2)) #define ir_BINARY_OP_I32(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_I32), (_op1), (_op2)) #define ir_BINARY_OP_I64(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_I64), (_op1), (_op2)) #define ir_BINARY_OP_D(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_DOUBLE), (_op1), (_op2)) #define ir_BINARY_OP_F(_op, _op1, _op2) ir_fold2(_ir_CTX, IR_OPT((_op), IR_FLOAT), (_op1), (_op2)) #define ir_EQ(_op1, _op2) ir_CMP_OP(IR_EQ, (_op1), (_op2)) #define ir_NE(_op1, _op2) ir_CMP_OP(IR_NE, (_op1), (_op2)) #define ir_LT(_op1, _op2) ir_CMP_OP(IR_LT, (_op1), (_op2)) #define ir_GE(_op1, _op2) ir_CMP_OP(IR_GE, (_op1), (_op2)) #define ir_LE(_op1, _op2) ir_CMP_OP(IR_LE, (_op1), (_op2)) #define ir_GT(_op1, _op2) ir_CMP_OP(IR_GT, (_op1), (_op2)) #define ir_ULT(_op1, _op2) ir_CMP_OP(IR_ULT, (_op1), (_op2)) #define ir_UGE(_op1, _op2) ir_CMP_OP(IR_UGE, (_op1), (_op2)) #define ir_ULE(_op1, _op2) ir_CMP_OP(IR_ULE, (_op1), (_op2)) #define ir_UGT(_op1, _op2) ir_CMP_OP(IR_UGT, (_op1), (_op2)) #define ir_ADD_U8(_op1, _op2) ir_BINARY_OP_U8(IR_ADD, (_op1), (_op2)) #define ir_ADD_U16(_op1, _op2) ir_BINARY_OP_U16(IR_ADD, (_op1), (_op2)) #define ir_ADD_U32(_op1, _op2) ir_BINARY_OP_U32(IR_ADD, (_op1), (_op2)) #define ir_ADD_U64(_op1, _op2) ir_BINARY_OP_U64(IR_ADD, (_op1), (_op2)) #define ir_ADD_A(_op1, _op2) ir_BINARY_OP_A(IR_ADD, (_op1), (_op2)) #define ir_ADD_C(_op1, _op2) ir_BINARY_OP_C(IR_ADD, (_op1), (_op2)) #define ir_ADD_I8(_op1, _op2) ir_BINARY_OP_I8(IR_ADD, (_op1), (_op2)) #define ir_ADD_I16(_op1, _op2) ir_BINARY_OP_I16(IR_ADD, (_op1), (_op2)) #define ir_ADD_I32(_op1, _op2) ir_BINARY_OP_I32(IR_ADD, (_op1), (_op2)) #define ir_ADD_I64(_op1, _op2) ir_BINARY_OP_I64(IR_ADD, (_op1), (_op2)) #define ir_ADD_D(_op1, _op2) ir_BINARY_OP_D(IR_ADD, (_op1), (_op2)) #define ir_ADD_F(_op1, _op2) ir_BINARY_OP_F(IR_ADD, (_op1), (_op2)) #define ir_SUB_U8(_op1, _op2) ir_BINARY_OP_U8(IR_SUB, (_op1), (_op2)) #define ir_SUB_U16(_op1, _op2) ir_BINARY_OP_U16(IR_SUB, (_op1), (_op2)) #define ir_SUB_U32(_op1, _op2) ir_BINARY_OP_U32(IR_SUB, (_op1), (_op2)) #define ir_SUB_U64(_op1, _op2) ir_BINARY_OP_U64(IR_SUB, (_op1), (_op2)) #define ir_SUB_A(_op1, _op2) ir_BINARY_OP_A(IR_SUB, (_op1), (_op2)) #define ir_SUB_C(_op1, _op2) ir_BINARY_OP_C(IR_SUB, (_op1), (_op2)) #define ir_SUB_I8(_op1, _op2) ir_BINARY_OP_I8(IR_SUB, (_op1), (_op2)) #define ir_SUB_I16(_op1, _op2) ir_BINARY_OP_I16(IR_SUB, (_op1), (_op2)) #define ir_SUB_I32(_op1, _op2) ir_BINARY_OP_I32(IR_SUB, (_op1), (_op2)) #define ir_SUB_I64(_op1, _op2) ir_BINARY_OP_I64(IR_SUB, (_op1), (_op2)) #define ir_SUB_D(_op1, _op2) ir_BINARY_OP_D(IR_SUB, (_op1), (_op2)) #define ir_SUB_F(_op1, _op2) ir_BINARY_OP_F(IR_SUB, (_op1), (_op2)) #define ir_MUL_U8(_op1, _op2) ir_BINARY_OP_U8(IR_MUL, (_op1), (_op2)) #define ir_MUL_U16(_op1, _op2) ir_BINARY_OP_U16(IR_MUL, (_op1), (_op2)) #define ir_MUL_U32(_op1, _op2) ir_BINARY_OP_U32(IR_MUL, (_op1), (_op2)) #define ir_MUL_U64(_op1, _op2) ir_BINARY_OP_U64(IR_MUL, (_op1), (_op2)) #define ir_MUL_A(_op1, _op2) ir_BINARY_OP_A(IR_MUL, (_op1), (_op2)) #define ir_MUL_C(_op1, _op2) ir_BINARY_OP_C(IR_MUL, (_op1), (_op2)) #define ir_NUL_I8(_op1, _op2) ir_BINARY_OP_I8(IR_MUL, (_op1), (_op2)) #define ir_MUL_I16(_op1, _op2) ir_BINARY_OP_I16(IR_MUL, (_op1), (_op2)) #define ir_MUL_I32(_op1, _op2) ir_BINARY_OP_I32(IR_MUL, (_op1), (_op2)) #define ir_MUL_I64(_op1, _op2) ir_BINARY_OP_I64(IR_MUL, (_op1), (_op2)) #define ir_MUL_D(_op1, _op2) ir_BINARY_OP_D(IR_MUL, (_op1), (_op2)) #define ir_MUL_F(_op1, _op2) ir_BINARY_OP_F(IR_MUL, (_op1), (_op2)) #define ir_DIV_U8(_op1, _op2) ir_BINARY_OP_U8(IR_DIV, (_op1), (_op2)) #define ir_DIV_U16(_op1, _op2) ir_BINARY_OP_U16(IR_DIV, (_op1), (_op2)) #define ir_DIV_U32(_op1, _op2) ir_BINARY_OP_U32(IR_DIV, (_op1), (_op2)) #define ir_DIV_U64(_op1, _op2) ir_BINARY_OP_U64(IR_DIV, (_op1), (_op2)) #define ir_DIV_A(_op1, _op2) ir_BINARY_OP_A(IR_DIV, (_op1), (_op2)) #define ir_DIV_C(_op1, _op2) ir_BINARY_OP_C(IR_DIV, (_op1), (_op2)) #define ir_DIV_I8(_op1, _op2) ir_BINARY_OP_I8(IR_DIV, (_op1), (_op2)) #define ir_DIV_I16(_op1, _op2) ir_BINARY_OP_I16(IR_DIV, (_op1), (_op2)) #define ir_DIV_I32(_op1, _op2) ir_BINARY_OP_I32(IR_DIV, (_op1), (_op2)) #define ir_DIV_I64(_op1, _op2) ir_BINARY_OP_I64(IR_DIV, (_op1), (_op2)) #define ir_DIV_D(_op1, _op2) ir_BINARY_OP_D(IR_DIV, (_op1), (_op2)) #define ir_DIV_F(_op1, _op2) ir_BINARY_OP_F(IR_DIV, (_op1), (_op2)) #define ir_MOD_U8(_op1, _op2) ir_BINARY_OP_U8(IR_MOD, (_op1), (_op2)) #define ir_MOD_U16(_op1, _op2) ir_BINARY_OP_U16(IR_MOD, (_op1), (_op2)) #define ir_MOD_U32(_op1, _op2) ir_BINARY_OP_U32(IR_MOD, (_op1), (_op2)) #define ir_MOD_U64(_op1, _op2) ir_BINARY_OP_U64(IR_MOD, (_op1), (_op2)) #define ir_MOD_A(_op1, _op2) ir_BINARY_OP_A(IR_MOD, (_op1), (_op2)) #define ir_MOD_C(_op1, _op2) ir_BINARY_OP_C(IR_MOD, (_op1), (_op2)) #define ir_MOD_I8(_op1, _op2) ir_BINARY_OP_I8(IR_MOD, (_op1), (_op2)) #define ir_MOD_I16(_op1, _op2) ir_BINARY_OP_I16(IR_MOD, (_op1), (_op2)) #define ir_MOD_I32(_op1, _op2) ir_BINARY_OP_I32(IR_MOD, (_op1), (_op2)) #define ir_MOD_I64(_op1, _op2) ir_BINARY_OP_I64(IR_MOD, (_op1), (_op2)) #define ir_NEG_C(_op1) ir_UNARY_OP_C(IR_NEG, (_op1)) #define ir_NEG_I8(_op1) ir_UNARY_OP_I8(IR_NEG, (_op1)) #define ir_NEG_I16(_op1) ir_UNARY_OP_I16(IR_NEG, (_op1)) #define ir_NEG_I32(_op1) ir_UNARY_OP_I32(IR_NEG, (_op1)) #define ir_NEG_I64(_op1) ir_UNARY_OP_I64(IR_NEG, (_op1)) #define ir_NEG_D(_op1) ir_UNARY_OP_D(IR_NEG, (_op1)) #define ir_NEG_F(_op1) ir_UNARY_OP_F(IR_NEG, (_op1)) #define ir_ABS_C(_op1) ir_UNARY_OP_C(IR_ABS, (_op1)) #define ir_ABS_I8(_op1) ir_UNARY_OP_I8(IR_ABS, (_op1)) #define ir_ABS_I16(_op1) ir_UNARY_OP_I16(IR_ABS, (_op1)) #define ir_ABS_I32(_op1) ir_UNARY_OP_I32(IR_ABS, (_op1)) #define ir_ABS_I64(_op1) ir_UNARY_OP_I64(IR_ABS, (_op1)) #define ir_ABS_D(_op1) ir_UNARY_OP_D(IR_ABS, (_op1)) #define ir_ABS_F(_op1) ir_UNARY_OP_F(IR_ABS, (_op1)) #define ir_SEXT_U8(_op1) ir_UNARY_OP_U8(IR_SEXT, (_op1)) #define ir_SEXT_U16(_op1) ir_UNARY_OP_U16(IR_SEXT, (_op1)) #define ir_SEXT_U32(_op1) ir_UNARY_OP_U32(IR_SEXT, (_op1)) #define ir_SEXT_U64(_op1) ir_UNARY_OP_U64(IR_SEXT, (_op1)) #define ir_SEXT_A(_op1) ir_UNARY_OP_A(IR_SEXT, (_op1)) #define ir_SEXT_C(_op1) ir_UNARY_OP_C(IR_SEXT, (_op1)) #define ir_SEXT_I8(_op1) ir_UNARY_OP_I8(IR_SEXT, (_op1)) #define ir_SEXT_I16(_op1) ir_UNARY_OP_I16(IR_SEXT, (_op1)) #define ir_SEXT_I32(_op1) ir_UNARY_OP_I32(IR_SEXT, (_op1)) #define ir_SEXT_I64(_op1) ir_UNARY_OP_I64(IR_SEXT, (_op1)) #define ir_ZEXT_U8(_op1) ir_UNARY_OP_U8(IR_ZEXT, (_op1)) #define ir_ZEXT_U16(_op1) ir_UNARY_OP_U16(IR_ZEXT, (_op1)) #define ir_ZEXT_U32(_op1) ir_UNARY_OP_U32(IR_ZEXT, (_op1)) #define ir_ZEXT_U64(_op1) ir_UNARY_OP_U64(IR_ZEXT, (_op1)) #define ir_ZEXT_A(_op1) ir_UNARY_OP_A(IR_ZEXT, (_op1)) #define ir_ZEXT_C(_op1) ir_UNARY_OP_C(IR_ZEXT, (_op1)) #define ir_ZEXT_I8(_op1) ir_UNARY_OP_I8(IR_ZEXT, (_op1)) #define ir_ZEXT_I16(_op1) ir_UNARY_OP_I16(IR_ZEXT, (_op1)) #define ir_ZEXT_I32(_op1) ir_UNARY_OP_I32(IR_ZEXT, (_op1)) #define ir_ZEXT_I64(_op1) ir_UNARY_OP_I64(IR_ZEXT, (_op1)) #define ir_TRUNC_U8(_op1) ir_UNARY_OP_U8(IR_TRUNC, (_op1)) #define ir_TRUNC_U16(_op1) ir_UNARY_OP_U16(IR_TRUNC, (_op1)) #define ir_TRUNC_U32(_op1) ir_UNARY_OP_U32(IR_TRUNC, (_op1)) #define ir_TRUNC_U64(_op1) ir_UNARY_OP_U64(IR_TRUNC, (_op1)) #define ir_TRUNC_A(_op1) ir_UNARY_OP_A(IR_TRUNC, (_op1)) #define ir_TRUNC_C(_op1) ir_UNARY_OP_C(IR_TRUNC, (_op1)) #define ir_TRUNC_I8(_op1) ir_UNARY_OP_I8(IR_TRUNC, (_op1)) #define ir_TRUNC_I16(_op1) ir_UNARY_OP_I16(IR_TRUNC, (_op1)) #define ir_TRUNC_I32(_op1) ir_UNARY_OP_I32(IR_TRUNC, (_op1)) #define ir_TRUNC_I64(_op1) ir_UNARY_OP_I64(IR_TRUNC, (_op1)) #define ir_BITCAST_U8(_op1) ir_UNARY_OP_U8(IR_BITCAST, (_op1)) #define ir_BITCAST_U16(_op1) ir_UNARY_OP_U16(IR_BITCAST, (_op1)) #define ir_BITCAST_U32(_op1) ir_UNARY_OP_U32(IR_BITCAST, (_op1)) #define ir_BITCAST_U64(_op1) ir_UNARY_OP_U64(IR_BITCAST, (_op1)) #define ir_BITCAST_A(_op1) ir_UNARY_OP_A(IR_BITCAST, (_op1)) #define ir_BITCAST_C(_op1) ir_UNARY_OP_C(IR_BITCAST, (_op1)) #define ir_BITCAST_I8(_op1) ir_UNARY_OP_I8(IR_BITCAST, (_op1)) #define ir_BITCAST_I16(_op1) ir_UNARY_OP_I16(IR_BITCAST, (_op1)) #define ir_BITCAST_I32(_op1) ir_UNARY_OP_I32(IR_BITCAST, (_op1)) #define ir_BITCAST_I64(_op1) ir_UNARY_OP_I64(IR_BITCAST, (_op1)) #define ir_BITCAST_D(_op1) ir_UNARY_OP_D(IR_BITCAST, (_op1)) #define ir_BITCAST_F(_op1) ir_UNARY_OP_F(IR_BITCAST, (_op1)) #define ir_INT2D(_op1) ir_UNARY_OP_D(IR_INT2FP, (_op1)) #define ir_INT2F(_op1) ir_UNARY_OP_F(IR_INT2FP, (_op1)) #define ir_FP2U8(_op1) ir_UNARY_OP_U8(IR_FP2INT, (_op1)) #define ir_FP2U16(_op1) ir_UNARY_OP_U16(IR_FP2INT, (_op1)) #define ir_FP2U32(_op1) ir_UNARY_OP_U32(IR_FP2INT, (_op1)) #define ir_FP2U64(_op1) ir_UNARY_OP_U64(IR_FP2INT, (_op1)) #define ir_FP2I8(_op1) ir_UNARY_OP_I8(IR_FP2INT, (_op1)) #define ir_FP2I16(_op1) ir_UNARY_OP_I16(IR_FP2INT, (_op1)) #define ir_FP2I32(_op1) ir_UNARY_OP_I32(IR_FP2INT, (_op1)) #define ir_FP2I64(_op1) ir_UNARY_OP_I64(IR_FP2INT, (_op1)) #define ir_F2D(_op1) ir_UNARY_OP_D(IR_FP2FP, (_op1)) #define ir_D2F(_op1) ir_UNARY_OP_F(IR_FP2FP, (_op1)) #define ir_ADD_OV_U8(_op1, _op2) ir_BINARY_OP_U8(IR_ADD_OV, (_op1), (_op2)) #define ir_ADD_OV_U16(_op1, _op2) ir_BINARY_OP_U16(IR_ADD_OV, (_op1), (_op2)) #define ir_ADD_OV_U32(_op1, _op2) ir_BINARY_OP_U32(IR_ADD_OV, (_op1), (_op2)) #define ir_ADD_OV_U64(_op1, _op2) ir_BINARY_OP_U64(IR_ADD_OV, (_op1), (_op2)) #define ir_ADD_OV_A(_op1, _op2) ir_BINARY_OP_A(IR_ADD_OV, (_op1), (_op2)) #define ir_ADD_OV_C(_op1, _op2) ir_BINARY_OP_C(IR_ADD_OV, (_op1), (_op2)) #define ir_ADD_OV_I8(_op1, _op2) ir_BINARY_OP_I8(IR_ADD_OV, (_op1), (_op2)) #define ir_ADD_OV_I16(_op1, _op2) ir_BINARY_OP_I16(IR_ADD_OV, (_op1), (_op2)) #define ir_ADD_OV_I32(_op1, _op2) ir_BINARY_OP_I32(IR_ADD_OV, (_op1), (_op2)) #define ir_ADD_OV_I64(_op1, _op2) ir_BINARY_OP_I64(IR_ADD_OV, (_op1), (_op2)) #define ir_SUB_OV_U8(_op1, _op2) ir_BINARY_OP_U8(IR_SUB_OV, (_op1), (_op2)) #define ir_SUB_OV_U16(_op1, _op2) ir_BINARY_OP_U16(IR_SUB_OV, (_op1), (_op2)) #define ir_SUB_OV_U32(_op1, _op2) ir_BINARY_OP_U32(IR_SUB_OV, (_op1), (_op2)) #define ir_SUB_OV_U64(_op1, _op2) ir_BINARY_OP_U64(IR_SUB_OV, (_op1), (_op2)) #define ir_SUB_OV_A(_op1, _op2) ir_BINARY_OP_A(IR_SUB_OV, (_op1), (_op2)) #define ir_SUB_OV_C(_op1, _op2) ir_BINARY_OP_C(IR_SUB_OV, (_op1), (_op2)) #define ir_SUB_OV_I8(_op1, _op2) ir_BINARY_OP_I8(IR_SUB_OV, (_op1), (_op2)) #define ir_SUB_OV_I16(_op1, _op2) ir_BINARY_OP_I16(IR_SUB_OV, (_op1), (_op2)) #define ir_SUB_OV_I32(_op1, _op2) ir_BINARY_OP_I32(IR_SUB_OV, (_op1), (_op2)) #define ir_SUB_OV_I64(_op1, _op2) ir_BINARY_OP_I64(IR_SUB_OV, (_op1), (_op2)) #define ir_MUL_OV_U8(_op1, _op2) ir_BINARY_OP_U8(IR_MUL_OV, (_op1), (_op2)) #define ir_MUL_OV_U16(_op1, _op2) ir_BINARY_OP_U16(IR_MUL_OV, (_op1), (_op2)) #define ir_MUL_OV_U32(_op1, _op2) ir_BINARY_OP_U32(IR_MUL_OV, (_op1), (_op2)) #define ir_MUL_OV_U64(_op1, _op2) ir_BINARY_OP_U64(IR_MUL_OV, (_op1), (_op2)) #define ir_MUL_OV_A(_op1, _op2) ir_BINARY_OP_A(IR_MUL_OV, (_op1), (_op2)) #define ir_MUL_OV_C(_op1, _op2) ir_BINARY_OP_C(IR_MUL_OV, (_op1), (_op2)) #define ir_MUL_OV_I8(_op1, _op2) ir_BINARY_OP_I8(IR_MUL_OV, (_op1), (_op2)) #define ir_MUL_OV_I16(_op1, _op2) ir_BINARY_OP_I16(IR_MUL_OV, (_op1), (_op2)) #define ir_MUL_OV_I32(_op1, _op2) ir_BINARY_OP_I32(IR_MUL_OV, (_op1), (_op2)) #define ir_MUL_OV_I64(_op1, _op2) ir_BINARY_OP_I64(IR_MUL_OV, (_op1), (_op2)) #define ir_OVERFLOW(_op1) ir_fold1(_ir_CTX, IR_OPT(IR_OVERFLOW, IR_BOOL), (_op1)) #define ir_NOT_B(_op1) ir_UNARY_OP_B(IR_NOT, (_op1)) #define ir_NOT_U8(_op1) ir_UNARY_OP_U8(IR_NOT, (_op1)) #define ir_NOT_U16(_op1) ir_UNARY_OP_U16(IR_NOT, (_op1)) #define ir_NOT_U32(_op1) ir_UNARY_OP_U32(IR_NOT, (_op1)) #define ir_NOT_U64(_op1) ir_UNARY_OP_U64(IR_NOT, (_op1)) #define ir_NOT_A(_op1) ir_UNARY_OP_A(IR_NOT, (_op1)) #define ir_NOT_C(_op1) ir_UNARY_OP_C(IR_NOT, (_op1)) #define ir_NOT_I8(_op1) ir_UNARY_OP_I8(IR_NOT, (_op1)) #define ir_NOT_I16(_op1) ir_UNARY_OP_I16(IR_NOT, (_op1)) #define ir_NOT_I32(_op1) ir_UNARY_OP_I32(IR_NOT, (_op1)) #define ir_NOT_I64(_op1) ir_UNARY_OP_I64(IR_NOT, (_op1)) #define ir_OR_B(_op1, _op2) ir_BINARY_OP_B(IR_OR, (_op1), (_op2)) #define ir_OR_U8(_op1, _op2) ir_BINARY_OP_U8(IR_OR, (_op1), (_op2)) #define ir_OR_U16(_op1, _op2) ir_BINARY_OP_U16(IR_OR, (_op1), (_op2)) #define ir_OR_U32(_op1, _op2) ir_BINARY_OP_U32(IR_OR, (_op1), (_op2)) #define ir_OR_U64(_op1, _op2) ir_BINARY_OP_U64(IR_OR, (_op1), (_op2)) #define ir_OR_A(_op1, _op2) ir_BINARY_OP_A(IR_OR, (_op1), (_op2)) #define ir_OR_C(_op1, _op2) ir_BINARY_OP_C(IR_OR, (_op1), (_op2)) #define ir_OR_I8(_op1, _op2) ir_BINARY_OP_I8(IR_OR, (_op1), (_op2)) #define ir_OR_I16(_op1, _op2) ir_BINARY_OP_I16(IR_OR, (_op1), (_op2)) #define ir_OR_I32(_op1, _op2) ir_BINARY_OP_I32(IR_OR, (_op1), (_op2)) #define ir_OR_I64(_op1, _op2) ir_BINARY_OP_I64(IR_OR, (_op1), (_op2)) #define ir_AND_B(_op1, _op2) ir_BINARY_OP_B(IR_AND, (_op1), (_op2)) #define ir_AND_U8(_op1, _op2) ir_BINARY_OP_U8(IR_AND, (_op1), (_op2)) #define ir_AND_U16(_op1, _op2) ir_BINARY_OP_U16(IR_AND, (_op1), (_op2)) #define ir_AND_U32(_op1, _op2) ir_BINARY_OP_U32(IR_AND, (_op1), (_op2)) #define ir_AND_U64(_op1, _op2) ir_BINARY_OP_U64(IR_AND, (_op1), (_op2)) #define ir_AND_A(_op1, _op2) ir_BINARY_OP_A(IR_AND, (_op1), (_op2)) #define ir_AND_C(_op1, _op2) ir_BINARY_OP_C(IR_AND, (_op1), (_op2)) #define ir_AND_I8(_op1, _op2) ir_BINARY_OP_I8(IR_AND, (_op1), (_op2)) #define ir_AND_I16(_op1, _op2) ir_BINARY_OP_I16(IR_AND, (_op1), (_op2)) #define ir_AND_I32(_op1, _op2) ir_BINARY_OP_I32(IR_AND, (_op1), (_op2)) #define ir_AND_I64(_op1, _op2) ir_BINARY_OP_I64(IR_AND, (_op1), (_op2)) #define ir_XOR_B(_op1, _op2) ir_BINARY_OP_B(IR_XOR, (_op1), (_op2)) #define ir_XOR_U8(_op1, _op2) ir_BINARY_OP_U8(IR_XOR, (_op1), (_op2)) #define ir_XOR_U16(_op1, _op2) ir_BINARY_OP_U16(IR_XOR, (_op1), (_op2)) #define ir_XOR_U32(_op1, _op2) ir_BINARY_OP_U32(IR_XOR, (_op1), (_op2)) #define ir_XOR_U64(_op1, _op2) ir_BINARY_OP_U64(IR_XOR, (_op1), (_op2)) #define ir_XOR_A(_op1, _op2) ir_BINARY_OP_A(IR_XOR, (_op1), (_op2)) #define ir_XOR_C(_op1, _op2) ir_BINARY_OP_C(IR_XOR, (_op1), (_op2)) #define ir_XOR_I8(_op1, _op2) ir_BINARY_OP_I8(IR_XOR, (_op1), (_op2)) #define ir_XOR_I16(_op1, _op2) ir_BINARY_OP_I16(IR_XOR, (_op1), (_op2)) #define ir_XOR_I32(_op1, _op2) ir_BINARY_OP_I32(IR_XOR, (_op1), (_op2)) #define ir_XOR_I64(_op1, _op2) ir_BINARY_OP_I64(IR_XOR, (_op1), (_op2)) #define ir_SHL_U8(_op1, _op2) ir_BINARY_OP_U8(IR_SHL, (_op1), (_op2)) #define ir_SHL_U16(_op1, _op2) ir_BINARY_OP_U16(IR_SHL, (_op1), (_op2)) #define ir_SHL_U32(_op1, _op2) ir_BINARY_OP_U32(IR_SHL, (_op1), (_op2)) #define ir_SHL_U64(_op1, _op2) ir_BINARY_OP_U64(IR_SHL, (_op1), (_op2)) #define ir_SHL_A(_op1, _op2) ir_BINARY_OP_A(IR_SHL, (_op1), (_op2)) #define ir_SHL_C(_op1, _op2) ir_BINARY_OP_C(IR_SHL, (_op1), (_op2)) #define ir_SHL_I8(_op1, _op2) ir_BINARY_OP_I8(IR_SHL, (_op1), (_op2)) #define ir_SHL_I16(_op1, _op2) ir_BINARY_OP_I16(IR_SHL, (_op1), (_op2)) #define ir_SHL_I32(_op1, _op2) ir_BINARY_OP_I32(IR_SHL, (_op1), (_op2)) #define ir_SHL_I64(_op1, _op2) ir_BINARY_OP_I64(IR_SHL, (_op1), (_op2)) #define ir_SHR_U8(_op1, _op2) ir_BINARY_OP_U8(IR_SHR, (_op1), (_op2)) #define ir_SHR_U16(_op1, _op2) ir_BINARY_OP_U16(IR_SHR, (_op1), (_op2)) #define ir_SHR_U32(_op1, _op2) ir_BINARY_OP_U32(IR_SHR, (_op1), (_op2)) #define ir_SHR_U64(_op1, _op2) ir_BINARY_OP_U64(IR_SHR, (_op1), (_op2)) #define ir_SHR_A(_op1, _op2) ir_BINARY_OP_A(IR_SHR, (_op1), (_op2)) #define ir_SHR_C(_op1, _op2) ir_BINARY_OP_C(IR_SHR, (_op1), (_op2)) #define ir_SHR_I8(_op1, _op2) ir_BINARY_OP_I8(IR_SHR, (_op1), (_op2)) #define ir_SHR_I16(_op1, _op2) ir_BINARY_OP_I16(IR_SHR, (_op1), (_op2)) #define ir_SHR_I32(_op1, _op2) ir_BINARY_OP_I32(IR_SHR, (_op1), (_op2)) #define ir_SHR_I64(_op1, _op2) ir_BINARY_OP_I64(IR_SHR, (_op1), (_op2)) #define ir_SAR_U8(_op1, _op2) ir_BINARY_OP_U8(IR_SAR, (_op1), (_op2)) #define ir_SAR_U16(_op1, _op2) ir_BINARY_OP_U16(IR_SAR, (_op1), (_op2)) #define ir_SAR_U32(_op1, _op2) ir_BINARY_OP_U32(IR_SAR, (_op1), (_op2)) #define ir_SAR_U64(_op1, _op2) ir_BINARY_OP_U64(IR_SAR, (_op1), (_op2)) #define ir_SAR_A(_op1, _op2) ir_BINARY_OP_A(IR_SAR, (_op1), (_op2)) #define ir_SAR_C(_op1, _op2) ir_BINARY_OP_C(IR_SAR, (_op1), (_op2)) #define ir_SAR_I8(_op1, _op2) ir_BINARY_OP_I8(IR_SAR, (_op1), (_op2)) #define ir_SAR_I16(_op1, _op2) ir_BINARY_OP_I16(IR_SAR, (_op1), (_op2)) #define ir_SAR_I32(_op1, _op2) ir_BINARY_OP_I32(IR_SAR, (_op1), (_op2)) #define ir_SAR_I64(_op1, _op2) ir_BINARY_OP_I64(IR_SAR, (_op1), (_op2)) #define ir_ROL_U8(_op1, _op2) ir_BINARY_OP_U8(IR_ROL, (_op1), (_op2)) #define ir_ROL_U16(_op1, _op2) ir_BINARY_OP_U16(IR_ROL, (_op1), (_op2)) #define ir_ROL_U32(_op1, _op2) ir_BINARY_OP_U32(IR_ROL, (_op1), (_op2)) #define ir_ROL_U64(_op1, _op2) ir_BINARY_OP_U64(IR_ROL, (_op1), (_op2)) #define ir_ROL_A(_op1, _op2) ir_BINARY_OP_A(IR_ROL, (_op1), (_op2)) #define ir_ROL_C(_op1, _op2) ir_BINARY_OP_C(IR_ROL, (_op1), (_op2)) #define ir_ROL_I8(_op1, _op2) ir_BINARY_OP_I8(IR_ROL, (_op1), (_op2)) #define ir_ROL_I16(_op1, _op2) ir_BINARY_OP_I16(IR_ROL, (_op1), (_op2)) #define ir_ROL_I32(_op1, _op2) ir_BINARY_OP_I32(IR_ROL, (_op1), (_op2)) #define ir_ROL_I64(_op1, _op2) ir_BINARY_OP_I64(IR_ROL, (_op1), (_op2)) #define ir_ROR_U8(_op1, _op2) ir_BINARY_OP_U8(IR_ROR, (_op1), (_op2)) #define ir_ROR_U16(_op1, _op2) ir_BINARY_OP_U16(IR_ROR, (_op1), (_op2)) #define ir_ROR_U32(_op1, _op2) ir_BINARY_OP_U32(IR_ROR, (_op1), (_op2)) #define ir_ROR_U64(_op1, _op2) ir_BINARY_OP_U64(IR_ROR, (_op1), (_op2)) #define ir_ROR_A(_op1, _op2) ir_BINARY_OP_A(IR_ROR, (_op1), (_op2)) #define ir_ROR_C(_op1, _op2) ir_BINARY_OP_C(IR_ROR, (_op1), (_op2)) #define ir_ROR_I8(_op1, _op2) ir_BINARY_OP_I8(IR_ROR, (_op1), (_op2)) #define ir_ROR_I16(_op1, _op2) ir_BINARY_OP_I16(IR_ROR, (_op1), (_op2)) #define ir_ROR_I32(_op1, _op2) ir_BINARY_OP_I32(IR_ROR, (_op1), (_op2)) #define ir_ROR_I64(_op1, _op2) ir_BINARY_OP_I64(IR_ROR, (_op1), (_op2)) #define ir_BSWAP_U16(_op1) ir_UNARY_OP_U16(IR_BSWAP, (_op1)) #define ir_BSWAP_U32(_op1) ir_UNARY_OP_U32(IR_BSWAP, (_op1)) #define ir_BSWAP_U64(_op1) ir_UNARY_OP_U64(IR_BSWAP, (_op1)) #define ir_BSWAP_A(_op1) ir_UNARY_OP_A(IR_BSWAP, (_op1)) #define ir_BSWAP_I16(_op1) ir_UNARY_OP_I16(IR_BSWAP, (_op1)) #define ir_BSWAP_I32(_op1) ir_UNARY_OP_I32(IR_BSWAP, (_op1)) #define ir_BSWAP_I64(_op1) ir_UNARY_OP_I64(IR_BSWAP, (_op1)) #define ir_MIN_U8(_op1, _op2) ir_BINARY_OP_U8(IR_MIN, (_op1), (_op2)) #define ir_MIN_U16(_op1, _op2) ir_BINARY_OP_U16(IR_MIN, (_op1), (_op2)) #define ir_MIN_U32(_op1, _op2) ir_BINARY_OP_U32(IR_MIN, (_op1), (_op2)) #define ir_MIN_U64(_op1, _op2) ir_BINARY_OP_U64(IR_MIN, (_op1), (_op2)) #define ir_MIN_A(_op1, _op2) ir_BINARY_OP_A(IR_MIN, (_op1), (_op2)) #define ir_MIN_C(_op1, _op2) ir_BINARY_OP_C(IR_MIN, (_op1), (_op2)) #define ir_MIN_I8(_op1, _op2) ir_BINARY_OP_I8(IR_MIN, (_op1), (_op2)) #define ir_MIN_I16(_op1, _op2) ir_BINARY_OP_I16(IR_MIN, (_op1), (_op2)) #define ir_MIN_I32(_op1, _op2) ir_BINARY_OP_I32(IR_MIN, (_op1), (_op2)) #define ir_MIN_I64(_op1, _op2) ir_BINARY_OP_I64(IR_MIN, (_op1), (_op2)) #define ir_MIN_D(_op1, _op2) ir_BINARY_OP_D(IR_MIN, (_op1), (_op2)) #define ir_MIN_F(_op1, _op2) ir_BINARY_OP_F(IR_MIN, (_op1), (_op2)) #define ir_MAX_U8(_op1, _op2) ir_BINARY_OP_U8(IR_MAX, (_op1), (_op2)) #define ir_MAX_U16(_op1, _op2) ir_BINARY_OP_U16(IR_MAX, (_op1), (_op2)) #define ir_MAX_U32(_op1, _op2) ir_BINARY_OP_U32(IR_MAX, (_op1), (_op2)) #define ir_MAX_U64(_op1, _op2) ir_BINARY_OP_U64(IR_MAX, (_op1), (_op2)) #define ir_MAX_A(_op1, _op2) ir_BINARY_OP_A(IR_MAX, (_op1), (_op2)) #define ir_MAX_C(_op1, _op2) ir_BINARY_OP_C(IR_MAX, (_op1), (_op2)) #define ir_MAX_I8(_op1, _op2) ir_BINARY_OP_I8(IR_MAX, (_op1), (_op2)) #define ir_MAX_I16(_op1, _op2) ir_BINARY_OP_I16(IR_MAX, (_op1), (_op2)) #define ir_MAX_I32(_op1, _op2) ir_BINARY_OP_I32(IR_MAX, (_op1), (_op2)) #define ir_MAX_I64(_op1, _op2) ir_BINARY_OP_I64(IR_MAX, (_op1), (_op2)) #define ir_MAX_D(_op1, _op2) ir_BINARY_OP_D(IR_MAX, (_op1), (_op2)) #define ir_MAX_F(_op1, _op2) ir_BINARY_OP_F(IR_MAX, (_op1), (_op2)) #define ir_COND_U8(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_U8), (_op1), (_op2), (_op3)) #define ir_COND_U16(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_U16), (_op1), (_op2), (_op3)) #define ir_COND_U32(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_U32), (_op1), (_op2), (_op3)) #define ir_COND_U64(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_U64), (_op1), (_op2), (_op3)) #define ir_COND_A(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_ADDR), (_op1), (_op2), (_op3)) #define ir_COND_C(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_CHAR), (_op1), (_op2), (_op3)) #define ir_COND_I8(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_I8), (_op1), (_op2), (_op3)) #define ir_COND_I16(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COMD, IR_I16), (_op1), (_op2), (_op3)) #define ir_COND_I32(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_I32), (_op1), (_op2), (_op3)) #define ir_COND_I64(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_I64), (_op1), (_op2), (_op3)) #define ir_COND_D(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_DOUBLE), (_op1), (_op2), (_op3)) #define ir_COND_F(_op1, _op2, _op3) ir_fold3(_ir_CTX, IR_OPT(IR_COND, IR_FLOAT), (_op1), (_op2), (_op3)) #define ir_PHI_2(_src1, _src2) _ir_PHI_2(_ir_CTX, (_src1), (_src2)) #define ir_PHI_N(_n, _inputs) _ir_PHI_N(_ir_CTX, (_n), (_inputs)) #define ir_PHI_SET_OP(_ref, _pos, _src) _ir_PHI_SET_OP(_ir_CTX, (_ref), (_pos), (_src)) #define ir_COPY_B(_op1) ir_UNARY_OP_B(IR_COPY, (_op1)) #define ir_COPY_U8(_op1) ir_UNARY_OP_U8(IR_COPY, (_op1)) #define ir_COPY_U16(_op1) ir_UNARY_OP_U16(IR_COPY, (_op1)) #define ir_COPY_U32(_op1) ir_UNARY_OP_U32(IR_COPY, (_op1)) #define ir_COPY_U64(_op1) ir_UNARY_OP_U64(IR_COPY, (_op1)) #define ir_COPY_A(_op1) ir_UNARY_OP_A(IR_COPY, (_op1)) #define ir_COPY_C(_op1) ir_UNARY_OP_C(IR_COPY, (_op1)) #define ir_COPY_I8(_op1) ir_UNARY_OP_I8(IR_COPY, (_op1)) #define ir_COPY_I16(_op1) ir_UNARY_OP_I16(IR_COPY, (_op1)) #define ir_COPY_I32(_op1) ir_UNARY_OP_I32(IR_COPY, (_op1)) #define ir_COPY_I64(_op1) ir_UNARY_OP_I64(IR_COPY, (_op1)) #define ir_COPY_D(_op1) ir_UNARY_OP_I64(IR_COPY, (_op1)) #define ir_COPY_F(_op1) ir_UNARY_OP_I64(IR_COPY, (_op1)) /* Helper to add address with a constant offset */ #define ir_ADD_OFFSET(_addr, _offset) _ir_ADD_OFFSET(_ir_CTX, (_addr), (_offset)) /* Unfoldable variant of COPY */ #define ir_HARD_COPY_B(_op1) ir_BINARY_OP_B(IR_COPY, (_op1), 1) #define ir_HARD_COPY_U8(_op1) ir_BINARY_OP_U8(IR_COPY, (_op1), 1) #define ir_HARD_COPY_U16(_op1) ir_BINARY_OP_U16(IR_COPY, (_op1), 1) #define ir_HARD_COPY_U32(_op1) ir_BINARY_OP_U32(IR_COPY, (_op1), 1) #define ir_HARD_COPY_U64(_op1) ir_BINARY_OP_U64(IR_COPY, (_op1), 1) #define ir_HARD_COPY_A(_op1) ir_BINARY_OP_A(IR_COPY, (_op1), 1) #define ir_HARD_COPY_C(_op1) ir_BINARY_OP_C(IR_COPY, (_op1), 1) #define ir_HARD_COPY_I8(_op1) ir_BINARY_OP_I8(IR_COPY, (_op1), 1) #define ir_HARD_COPY_I16(_op1) ir_BINARY_OP_I16(IR_COPY, (_op1), 1) #define ir_HARD_COPY_I32(_op1) ir_BINARY_OP_I32(IR_COPY, (_op1), 1) #define ir_HARD_COPY_I64(_op1) ir_BINARY_OP_I64(IR_COPY, (_op1), 1) #define ir_HARD_COPY_D(_op1) ir_BINARY_OP_I64(IR_COPY, (_op1), 1) #define ir_HARD_COPY_F(_op1) ir_BINARY_OP_I64(IR_COPY, (_op1), 1) #define ir_PARAM(_type, _name, _num) _ir_PARAM(_ir_CTX, (_type), (_name), (_num)) #define ir_VAR(_type, _name) _ir_VAR(_ir_CTX, (_type), (_name)) #define ir_CALL(type, func) _ir_CALL(_ir_CTX, type, func) #define ir_CALL_1(type, func, a1) _ir_CALL_1(_ir_CTX, type, func, a1) #define ir_CALL_2(type, func, a1, a2) _ir_CALL_2(_ir_CTX, type, func, a1, a2) #define ir_CALL_3(type, func, a1, a2, a3) _ir_CALL_3(_ir_CTX, type, func, a1, a2, a3) #define ir_CALL_4(type, func, a1, a2, a3, a4) _ir_CALL_4(_ir_CTX, type, func, a1, a2, a3, a4) #define ir_CALL_5(type, func, a1, a2, a3, a4, a5) _ir_CALL_5(_ir_CTX, type, func, a1, a2, a3, a4, a5) #define ir_TAILCALL(func) _ir_TAILCALL(_ir_CTX, func) #define ir_TAILCALL_1(func, a1) _ir_TAILCALL_1(_ir_CTX, func, a1) #define ir_TAILCALL_2(func, a1, a2) _ir_TAILCALL_2(_ir_CTX, func, a1, a2) #define ir_TAILCALL_3(func, a1, a2, a3) _ir_TAILCALL_3(_ir_CTX, func, a1, a2, a3) #define ir_TAILCALL_4(func, a1, a2, a3, a4) _ir_TAILCALL_4(_ir_CTX, func, a1, a2, a3, a4) #define ir_TAILCALL_5(func, a1, a2, a3, a4, a5) _ir_TAILCALL_5(_ir_CTX, func, a1, a2, a3, a4, a5) #define ir_ALLOCA(_size) _ir_ALLOCA(_ir_CTX, (_size)) #define ir_AFREE(_size) _ir_AFREE(_ir_CTX, (_size)) #define ir_VADDR(_var) ir_emit1(_ir_CTX, IR_OPT(IR_VADDR, IR_ADDR), (_var)) #define ir_VLOAD_B(_var) _ir_VLOAD(_ir_CTX, IR_BOOL, (_var)) #define ir_VLOAD_U8(_var) _ir_VLOAD(_ir_CTX, IR_U8, (_var)) #define ir_VLOAD_U16(_var) _ir_VLOAD(_ir_CTX, IR_U16, (_var)) #define ir_VLOAD_U32(_var) _ir_VLOAD(_ir_CTX, IR_U32, (_var)) #define ir_VLOAD_U64(_var) _ir_VLOAD(_ir_CTX, IR_U64, (_var)) #define ir_VLOAD_A(_var) _ir_VLOAD(_ir_CTX, IR_ADDR, (_var)) #define ir_VLOAD_C(_var) _ir_VLOAD(_ir_CTX, IR_CHAR, (_var)) #define ir_VLOAD_I8(_var) _ir_VLOAD(_ir_CTX, IR_I8, (_var)) #define ir_VLOAD_I16(_var) _ir_VLOAD(_ir_CTX, IR_I16, (_var)) #define ir_VLOAD_I32(_var) _ir_VLOAD(_ir_CTX, IR_I32, (_var)) #define ir_VLOAD_I64(_var) _ir_VLOAD(_ir_CTX, IR_I64, (_var)) #define ir_VLOAD_D(_var) _ir_VLOAD(_ir_CTX, IR_DOUBLE, (_var)) #define ir_VLOAD_F(_var) _ir_VLOAD(_ir_CTX, IR_FLOAT, (_var)) #define ir_VSTORE(_var, _val) _ir_VSTORE(_ir_CTX, (_var), (_val)) #define ir_RLOAD(_type, _reg) _ir_RLOAD(_ir_CTX, (_type), (_reg)) #define ir_RLOAD_B(_reg) _ir_RLOAD(_ir_CTX, IR_BOOL, (_reg)) #define ir_RLOAD_U8(_reg) _ir_RLOAD(_ir_CTX, IR_U8, (_reg)) #define ir_RLOAD_U16(_reg) _ir_RLOAD(_ir_CTX, IR_U16, (_reg)) #define ir_RLOAD_U32(_reg) _ir_RLOAD(_ir_CTX, IR_U32, (_reg)) #define ir_RLOAD_U64(_reg) _ir_RLOAD(_ir_CTX, IR_U64, (_reg)) #define ir_RLOAD_A(_reg) _ir_RLOAD(_ir_CTX, IR_ADDR, (_reg)) #define ir_RLOAD_C(_reg) _ir_RLOAD(_ir_CTX, IR_CHAR, (_reg)) #define ir_RLOAD_I8(_reg) _ir_RLOAD(_ir_CTX, IR_I8, (_reg)) #define ir_RLOAD_I16(_reg) _ir_RLOAD(_ir_CTX, IR_I16, (_reg)) #define ir_RLOAD_I32(_reg) _ir_RLOAD(_ir_CTX, IR_I32, (_reg)) #define ir_RLOAD_I64(_reg) _ir_RLOAD(_ir_CTX, IR_I64, (_reg)) #define ir_RLOAD_D(_reg) _ir_RLOAD(_ir_CTX, IR_DOUBLE, (_reg)) #define ir_RLOAD_F(_reg) _ir_RLOAD(_ir_CTX, IR_FLOAT, (_reg)) #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)) #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)) #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) #define ir_START() _ir_START(_ir_CTX) #define ir_ENTRY(_src, _num) _ir_ENTRY(_ir_CTX, (_src), (_num)) #define ir_BEGIN(_src) _ir_BEGIN(_ir_CTX, (_src)) #define ir_IF(_condition) _ir_IF(_ir_CTX, (_condition)) #define ir_IF_TRUE(_if) _ir_IF_TRUE(_ir_CTX, (_if)) #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)) #define ir_MERGE_SET_OP(_ref, _pos, _src) _ir_MERGE_SET_OP(_ir_CTX, (_ref), (_pos), (_src)) #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)) #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_ref src1, ir_ref src2); ir_ref _ir_PHI_N(ir_ctx *ctx, 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); 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_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); void _ir_CASE_VAL(ir_ctx *ctx, ir_ref switch_ref, ir_ref val); void _ir_CASE_DEFAULT(ir_ctx *ctx, ir_ref switch_ref); void _ir_RETURN(ir_ctx *ctx, ir_ref val); void _ir_IJMP(ir_ctx *ctx, ir_ref addr); void _ir_GUARD(ir_ctx *ctx, ir_ref condition, ir_ref addr); void _ir_GUARD_NOT(ir_ctx *ctx, ir_ref condition, ir_ref addr); ir_ref _ir_SNAPSHOT(ir_ctx *ctx, ir_ref n); void _ir_SNAPSHOT_SET_OP(ir_ctx *ctx, ir_ref snapshot, ir_ref pos, ir_ref val); ir_ref _ir_EXITCALL(ir_ctx *ctx, ir_ref func); #ifdef __cplusplus } /* extern "C" */ #endif #endif /* IR_BUILDER_H */