/* Builtins macros for RISC-V 'V' Extension for GNU compiler. Copyright (C) 2022-2022 Free Software Foundation, Inc. Contributed by Ju-Zhe Zhong (juzhe.zhong@rivai.ai), RiVAI Technologies Ltd. This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see . */ /* Use "DEF_RVV_TYPE" macro to define RVV datatype builtins. 1.The 'NAME' argument is the name exposed to users. For example, "vint32m1_t". 2.The 'NCHARS' argument is the length of ABI-name. For example, length of "__rvv_int32m1_t" is 15. 3.The 'ABI_NAME' argument is the ABI-name. For example, "__rvv_int32m1_t". 4.The 'SCALAR_TYPE' argument is associated scalar type which is used in "build_vector_type_for_mode". For "vint32m1_t", we use "intSI_type_node" in RV64. Otherwise, we use "long_integer_type_node". 5.The 'VECTOR_MODE' is the machine modes of corresponding RVV type used in "build_vector_type_for_mode" when TARGET_MIN_VLEN > 32. For example: VECTOR_MODE = VNx2SI for "vint32m1_t". 6.The 'VECTOR_MODE_MIN_VLEN_32' is the machine modes of corresponding RVV type used in "build_vector_type_for_mode" when TARGET_MIN_VLEN = 32. For example: VECTOR_MODE_MIN_VLEN_32 = VNx1SI for "vint32m1_t". 7.The 'VECTOR_SUFFIX' define mode suffix for vector type. For example: type_suffixes[VECTOR_TYPE_vin32m1_t].vector = i32m1. 8.The 'SCALAR_SUFFIX' define mode suffix for scalar type. For example: type_suffixes[VECTOR_TYPE_vin32m1_t].scalar = i32. 9.The 'VSETVL_SUFFIX' define mode suffix for vsetvli instruction. For example: type_suffixes[VECTOR_TYPE_vin32m1_t].vsetvl = e32m1. */ #ifndef DEF_RVV_TYPE #define DEF_RVV_TYPE(NAME, NCHARS, ABI_NAME, SCALAR_TYPE, VECTOR_MODE, \ VECTOR_MODE_MIN_VLEN_32, VECTOR_SUFFIX, SCALAR_SUFFIX, \ VSETVL_SUFFIX, MASK_TYPE) #endif /* Use "DEF_RVV_OP_TYPE" macro to define RVV operand types. The 'NAME' will be concatenated into intrinsic function name. */ #ifndef DEF_RVV_OP_TYPE #define DEF_RVV_OP_TYPE(NAME) #endif /* Use "DEF_RVV_PRED_TYPE" macro to define RVV predication types. The 'NAME' will be concatenated into intrinsic function name. */ #ifndef DEF_RVV_PRED_TYPE #define DEF_RVV_PRED_TYPE(NAME) #endif /* SEW/LMUL = 64: Only enable when TARGET_MIN_VLEN > 32 and machine mode = VNx1BImode. */ DEF_RVV_TYPE (vbool64_t, 14, __rvv_bool64_t, boolean, VNx1BI, VOID, _b64, , , vbool64_t) /* SEW/LMUL = 32: Machine mode = VNx2BImode when TARGET_MIN_VLEN > 32. Machine mode = VNx1BImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vbool32_t, 14, __rvv_bool32_t, boolean, VNx2BI, VNx1BI, _b32, , , vbool32_t) /* SEW/LMUL = 16: Machine mode = VNx2BImode when TARGET_MIN_VLEN = 32. Machine mode = VNx4BImode when TARGET_MIN_VLEN > 32. */ DEF_RVV_TYPE (vbool16_t, 14, __rvv_bool16_t, boolean, VNx4BI, VNx2BI, _b16, , , vbool16_t) /* SEW/LMUL = 8: Machine mode = VNx8BImode when TARGET_MIN_VLEN > 32. Machine mode = VNx4BImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vbool8_t, 13, __rvv_bool8_t, boolean, VNx8BI, VNx4BI, _b8, , , vbool8_t) /* SEW/LMUL = 4: Machine mode = VNx16BImode when TARGET_MIN_VLEN > 32. Machine mode = VNx8BImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vbool4_t, 13, __rvv_bool4_t, boolean, VNx16BI, VNx8BI, _b4, , , vbool4_t) /* SEW/LMUL = 2: Machine mode = VNx32BImode when TARGET_MIN_VLEN > 32. Machine mode = VNx16BImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vbool2_t, 13, __rvv_bool2_t, boolean, VNx32BI, VNx16BI, _b2, , , vbool2_t) /* SEW/LMUL = 1: Machine mode = VNx64BImode when TARGET_MIN_VLEN > 32. Machine mode = VNx32BImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vbool1_t, 13, __rvv_bool1_t, boolean, VNx64BI, VNx32BI, _b1, , , vbool1_t) /* LMUL = 1/8: Only enble when TARGET_MIN_VLEN > 32 and machine mode = VNx1QImode. */ DEF_RVV_TYPE (vint8mf8_t, 15, __rvv_int8mf8_t, intQI, VNx1QI, VOID, _i8mf8, _i8, _e8mf8, vbool64_t) DEF_RVV_TYPE (vuint8mf8_t, 16, __rvv_uint8mf8_t, unsigned_intQI, VNx1QI, VOID, _u8mf8, _u8, _e8mf8, vbool64_t) /* LMUL = 1/4: Machine mode = VNx2QImode when TARGET_MIN_VLEN > 32. Machine mode = VNx1QImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint8mf4_t, 15, __rvv_int8mf4_t, intQI, VNx2QI, VNx1QI, _i8mf4, _i8, _e8mf4, vbool32_t) DEF_RVV_TYPE (vuint8mf4_t, 16, __rvv_uint8mf4_t, unsigned_intQI, VNx2QI, VNx1QI, _u8mf4, _u8, _e8mf4, vbool32_t) /* LMUL = 1/2: Machine mode = VNx4QImode when TARGET_MIN_VLEN > 32. Machine mode = VNx2QImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint8mf2_t, 15, __rvv_int8mf2_t, intQI, VNx4QI, VNx2QI, _i8mf2, _i8, _e8mf2, vbool16_t) DEF_RVV_TYPE (vuint8mf2_t, 16, __rvv_uint8mf2_t, unsigned_intQI, VNx4QI, VNx2QI, _u8mf2, _u8, _e8mf2, vbool16_t) /* LMUL = 1: Machine mode = VNx8QImode when TARGET_MIN_VLEN > 32. Machine mode = VNx4QImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint8m1_t, 14, __rvv_int8m1_t, intQI, VNx8QI, VNx4QI, _i8m1, _i8, _e8m1, vbool8_t) DEF_RVV_TYPE (vuint8m1_t, 15, __rvv_uint8m1_t, unsigned_intQI, VNx8QI, VNx4QI, _u8m1, _u8, _e8m1, vbool8_t) /* LMUL = 2: Machine mode = VNx16QImode when TARGET_MIN_VLEN > 32. Machine mode = VNx8QImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint8m2_t, 14, __rvv_int8m2_t, intQI, VNx16QI, VNx8QI, _i8m2, _i8, _e8m2, vbool4_t) DEF_RVV_TYPE (vuint8m2_t, 15, __rvv_uint8m2_t, unsigned_intQI, VNx16QI, VNx8QI, _u8m2, _u8, _e8m2, vbool4_t) /* LMUL = 4: Machine mode = VNx32QImode when TARGET_MIN_VLEN > 32. Machine mode = VNx16QImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint8m4_t, 14, __rvv_int8m4_t, intQI, VNx32QI, VNx16QI, _i8m4, _i8, _e8m4, vbool2_t) DEF_RVV_TYPE (vuint8m4_t, 15, __rvv_uint8m4_t, unsigned_intQI, VNx32QI, VNx16QI, _u8m4, _u8, _e8m4, vbool2_t) /* LMUL = 8: Machine mode = VNx64QImode when TARGET_MIN_VLEN > 32. Machine mode = VNx32QImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint8m8_t, 14, __rvv_int8m8_t, intQI, VNx64QI, VNx32QI, _i8m8, _i8, _e8m8, vbool1_t) DEF_RVV_TYPE (vuint8m8_t, 15, __rvv_uint8m8_t, unsigned_intQI, VNx64QI, VNx32QI, _u8m8, _u8, _e8m8, vbool1_t) /* LMUL = 1/4: Only enble when TARGET_MIN_VLEN > 32 and machine mode = VNx1HImode. */ DEF_RVV_TYPE (vint16mf4_t, 16, __rvv_int16mf4_t, intHI, VNx1HI, VOID, _i16mf4, _i16, _e16mf4, vbool64_t) DEF_RVV_TYPE (vuint16mf4_t, 17, __rvv_uint16mf4_t, unsigned_intHI, VNx1HI, VOID, _u16mf4, _u16, _e16mf4, vbool64_t) /* LMUL = 1/2: Machine mode = VNx2HImode when TARGET_MIN_VLEN > 32. Machine mode = VNx1HImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint16mf2_t, 16, __rvv_int16mf2_t, intHI, VNx2HI, VNx1HI, _i16mf2, _i16, _e16mf2, vbool32_t) DEF_RVV_TYPE (vuint16mf2_t, 17, __rvv_uint16mf2_t, unsigned_intHI, VNx2HI, VNx1HI, _u16mf2, _u16, _e16mf2, vbool32_t) /* LMUL = 1: Machine mode = VNx4HImode when TARGET_MIN_VLEN > 32. Machine mode = VNx2HImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint16m1_t, 15, __rvv_int16m1_t, intHI, VNx4HI, VNx2HI, _i16m1, _i16, _e16m1, vbool16_t) DEF_RVV_TYPE (vuint16m1_t, 16, __rvv_uint16m1_t, unsigned_intHI, VNx4HI, VNx2HI, _u16m1, _u16, _e16m1, vbool16_t) /* LMUL = 2: Machine mode = VNx8HImode when TARGET_MIN_VLEN > 32. Machine mode = VNx4HImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint16m2_t, 15, __rvv_int16m2_t, intHI, VNx8HI, VNx4HI, _i16m2, _i16, _e16m2, vbool8_t) DEF_RVV_TYPE (vuint16m2_t, 16, __rvv_uint16m2_t, unsigned_intHI, VNx8HI, VNx4HI, _u16m2, _u16, _e16m2, vbool8_t) /* LMUL = 4: Machine mode = VNx16HImode when TARGET_MIN_VLEN > 32. Machine mode = VNx8HImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint16m4_t, 15, __rvv_int16m4_t, intHI, VNx16HI, VNx8HI, _i16m4, _i16, _e16m4, vbool4_t) DEF_RVV_TYPE (vuint16m4_t, 16, __rvv_uint16m4_t, unsigned_intHI, VNx16HI, VNx8HI, _u16m4, _u16, _e16m4, vbool4_t) /* LMUL = 8: Machine mode = VNx32HImode when TARGET_MIN_VLEN > 32. Machine mode = VNx16HImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint16m8_t, 15, __rvv_int16m8_t, intHI, VNx32HI, VNx16HI, _i16m8, _i16, _e16m8, vbool2_t) DEF_RVV_TYPE (vuint16m8_t, 16, __rvv_uint16m8_t, unsigned_intHI, VNx32HI, VNx16HI, _u16m8, _u16, _e16m8, vbool2_t) /* LMUL = 1/2: Only enble when TARGET_MIN_VLEN > 32 and machine mode = VNx1SImode. */ DEF_RVV_TYPE (vint32mf2_t, 16, __rvv_int32mf2_t, int32, VNx1SI, VOID, _i32mf2, _i32, _e32mf2, vbool64_t) DEF_RVV_TYPE (vuint32mf2_t, 17, __rvv_uint32mf2_t, unsigned_int32, VNx1SI, VOID, _u32mf2, _u32, _e32mf2, vbool64_t) /* LMUL = 1: Machine mode = VNx2SImode when TARGET_MIN_VLEN > 32. Machine mode = VNx1SImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint32m1_t, 15, __rvv_int32m1_t, int32, VNx2SI, VNx1SI, _i32m1, _i32, _e32m1, vbool32_t) DEF_RVV_TYPE (vuint32m1_t, 16, __rvv_uint32m1_t, unsigned_int32, VNx2SI, VNx1SI, _u32m1, _u32, _e32m1, vbool32_t) /* LMUL = 2: Machine mode = VNx4SImode when TARGET_MIN_VLEN > 32. Machine mode = VNx2SImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint32m2_t, 15, __rvv_int32m2_t, int32, VNx4SI, VNx2SI, _i32m2, _i32, _e32m2, vbool16_t) DEF_RVV_TYPE (vuint32m2_t, 16, __rvv_uint32m2_t, unsigned_int32, VNx4SI, VNx2SI, _u32m2, _u32, _e32m2, vbool16_t) /* LMUL = 4: Machine mode = VNx8SImode when TARGET_MIN_VLEN > 32. Machine mode = VNx4SImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint32m4_t, 15, __rvv_int32m4_t, int32, VNx8SI, VNx4SI, _i32m4, _i32, _e32m4, vbool8_t) DEF_RVV_TYPE (vuint32m4_t, 16, __rvv_uint32m4_t, unsigned_int32, VNx8SI, VNx4SI, _u32m4, _u32, _e32m4, vbool8_t) /* LMUL = 8: Machine mode = VNx16SImode when TARGET_MIN_VLEN > 32. Machine mode = VNx8SImode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vint32m8_t, 15, __rvv_int32m8_t, int32, VNx16SI, VNx8SI, _i32m8, _i32, _e32m8, vbool4_t) DEF_RVV_TYPE (vuint32m8_t, 16, __rvv_uint32m8_t, unsigned_int32, VNx16SI, VNx8SI, _u32m8, _u32, _e32m8, vbool4_t) /* SEW = 64: Disable when TARGET_MIN_VLEN > 32. */ DEF_RVV_TYPE (vint64m1_t, 15, __rvv_int64m1_t, intDI, VNx1DI, VOID, _i64m1, _i64, _e64m1, vbool64_t) DEF_RVV_TYPE (vuint64m1_t, 16, __rvv_uint64m1_t, unsigned_intDI, VNx1DI, VOID, _u64m1, _u64, _e64m1, vbool64_t) DEF_RVV_TYPE (vint64m2_t, 15, __rvv_int64m2_t, intDI, VNx2DI, VOID, _i64m2, _i64, _e64m2, vbool32_t) DEF_RVV_TYPE (vuint64m2_t, 16, __rvv_uint64m2_t, unsigned_intDI, VNx2DI, VOID, _u64m2, _u64, _e64m2, vbool32_t) DEF_RVV_TYPE (vint64m4_t, 15, __rvv_int64m4_t, intDI, VNx4DI, VOID, _i64m4, _i64, _e64m4, vbool16_t) DEF_RVV_TYPE (vuint64m4_t, 16, __rvv_uint64m4_t, unsigned_intDI, VNx4DI, VOID, _u64m4, _u64, _e64m4, vbool16_t) DEF_RVV_TYPE (vint64m8_t, 15, __rvv_int64m8_t, intDI, VNx8DI, VOID, _i64m8, _i64, _e64m8, vbool8_t) DEF_RVV_TYPE (vuint64m8_t, 16, __rvv_uint64m8_t, unsigned_intDI, VNx8DI, VOID, _u64m8, _u64, _e64m8, vbool8_t) /* LMUL = 1/2: Only enble when TARGET_MIN_VLEN > 32 and machine mode = VNx1SFmode. */ DEF_RVV_TYPE (vfloat32mf2_t, 18, __rvv_float32mf2_t, float, VNx1SF, VOID, _f32mf2, _f32, _e32mf2, vbool64_t) /* LMUL = 1: Machine mode = VNx2SFmode when TARGET_MIN_VLEN > 32. Machine mode = VNx1SFmode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vfloat32m1_t, 17, __rvv_float32m1_t, float, VNx2SF, VNx1SF, _f32m1, _f32, _e32m1, vbool32_t) /* LMUL = 2: Machine mode = VNx4SFmode when TARGET_MIN_VLEN > 32. Machine mode = VNx2SFmode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vfloat32m2_t, 17, __rvv_float32m2_t, float, VNx4SF, VNx2SF, _f32m2, _f32, _e32m2, vbool16_t) /* LMUL = 4: Machine mode = VNx8SFmode when TARGET_MIN_VLEN > 32. Machine mode = VNx4SFmode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vfloat32m4_t, 17, __rvv_float32m4_t, float, VNx8SF, VNx4SF, _f32m4, _f32, _e32m4, vbool8_t) /* LMUL = 8: Machine mode = VNx16SFmode when TARGET_MIN_VLEN > 32. Machine mode = VNx8SFmode when TARGET_MIN_VLEN = 32. */ DEF_RVV_TYPE (vfloat32m8_t, 17, __rvv_float32m8_t, float, VNx16SF, VNx8SF, _f32m8, _f32, _e32m8, vbool4_t) /* SEW = 64: Disable when TARGET_VECTOR_FP64. */ DEF_RVV_TYPE (vfloat64m1_t, 17, __rvv_float64m1_t, double, VNx1DF, VOID, _f64m1, _f64, _e64m1, vbool64_t) DEF_RVV_TYPE (vfloat64m2_t, 17, __rvv_float64m2_t, double, VNx2DF, VOID, _f64m2, _f64, _e64m2, vbool32_t) DEF_RVV_TYPE (vfloat64m4_t, 17, __rvv_float64m4_t, double, VNx4DF, VOID, _f64m4, _f64, _e64m4, vbool16_t) DEF_RVV_TYPE (vfloat64m8_t, 17, __rvv_float64m8_t, double, VNx8DF, VOID, _f64m8, _f64, _e64m8, vbool8_t) DEF_RVV_OP_TYPE (vv) DEF_RVV_OP_TYPE (vx) DEF_RVV_OP_TYPE (v) DEF_RVV_OP_TYPE (wv) DEF_RVV_OP_TYPE (wx) DEF_RVV_OP_TYPE (x_x_v) DEF_RVV_OP_TYPE (vf2) DEF_RVV_OP_TYPE (vf4) DEF_RVV_OP_TYPE (vf8) DEF_RVV_OP_TYPE (vvm) DEF_RVV_OP_TYPE (vxm) DEF_RVV_OP_TYPE (x_x_w) DEF_RVV_OP_TYPE (v_v) DEF_RVV_OP_TYPE (v_x) DEF_RVV_OP_TYPE (vs) DEF_RVV_OP_TYPE (mm) DEF_RVV_OP_TYPE (m) DEF_RVV_OP_TYPE (vf) DEF_RVV_OP_TYPE (vm) DEF_RVV_OP_TYPE (wf) DEF_RVV_OP_TYPE (vfm) DEF_RVV_OP_TYPE (v_f) DEF_RVV_PRED_TYPE (ta) DEF_RVV_PRED_TYPE (tu) DEF_RVV_PRED_TYPE (ma) DEF_RVV_PRED_TYPE (mu) DEF_RVV_PRED_TYPE (tama) DEF_RVV_PRED_TYPE (tamu) DEF_RVV_PRED_TYPE (tuma) DEF_RVV_PRED_TYPE (tumu) DEF_RVV_PRED_TYPE (m) DEF_RVV_PRED_TYPE (tam) DEF_RVV_PRED_TYPE (tum) #undef DEF_RVV_PRED_TYPE #undef DEF_RVV_OP_TYPE #undef DEF_RVV_TYPE