| /* Machine mode switch 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 |
| <http://www.gnu.org/licenses/>. */ |
| |
| /* This file is enable or disable the RVV modes according '-march'. */ |
| |
| /* According to rvv-intrinsic and RISC-V 'V' Extension ISA document: |
| https://github.com/riscv-non-isa/rvv-intrinsic-doc/blob/master/rvv-intrinsic-rfc.md. |
| https://github.com/riscv/riscv-v-spec/blob/master/v-spec.adoc. |
| |
| Data Types |
| Encode SEW and LMUL into data types. |
| We enforce the constraint LMUL ≥ SEW/ELEN in the implementation. |
| There are the following data types for MIN_VLEN > 32. |
| |
| Note: N/A means the corresponding vector type is disabled. |
| |
| |Types |LMUL=1|LMUL=2 |LMUL=4 |LMUL=8 |LMUL=1/2|LMUL=1/4|LMUL=1/8| |
| |int64_t |VNx1DI|VNx2DI |VNx4DI |VNx8DI |N/A |N/A |N/A | |
| |uint64_t|VNx1DI|VNx2DI |VNx4DI |VNx8DI |N/A |N/A |N/A | |
| |int32_t |VNx2SI|VNx4SI |VNx8SI |VNx16SI|VNx1SI |N/A |N/A | |
| |uint32_t|VNx2SI|VNx4SI |VNx8SI |VNx16SI|VNx1SI |N/A |N/A | |
| |int16_t |VNx4HI|VNx8HI |VNx16HI|VNx32HI|VNx2HI |VNx1HI |N/A | |
| |uint16_t|VNx4HI|VNx8HI |VNx16HI|VNx32HI|VNx2HI |VNx1HI |N/A | |
| |int8_t |VNx8QI|VNx16QI|VNx32QI|VNx64QI|VNx4QI |VNx2QI |VNx1QI | |
| |uint8_t |VNx8QI|VNx16QI|VNx32QI|VNx64QI|VNx4QI |VNx2QI |VNx1QI | |
| |float64 |VNx1DF|VNx2DF |VNx4DF |VNx8DF |N/A |N/A |N/A | |
| |float32 |VNx2SF|VNx4SF |VNx8SF |VNx16SF|VNx1SF |N/A |N/A | |
| |float16 |VNx4HF|VNx8HF |VNx16HF|VNx32HF|VNx2HF |VNx1HF |N/A | |
| |
| Mask Types Encode the ratio of SEW/LMUL into the |
| mask types. There are the following mask types. |
| |
| n = SEW/LMUL |
| |
| |Types|n=1 |n=2 |n=4 |n=8 |n=16 |n=32 |n=64 | |
| |bool |VNx64BI|VNx32BI|VNx16BI|VNx8BI|VNx4BI|VNx2BI|VNx1BI| |
| |
| There are the following data types for MIN_VLEN = 32. |
| |
| |Types |LMUL=1|LMUL=2|LMUL=4 |LMUL=8 |LMUL=1/2|LMUL=1/4|LMUL=1/8| |
| |int64_t |N/A |N/A |N/A |N/A |N/A |N/A |N/A | |
| |uint64_t|N/A |N/A |N/A |N/A |N/A |N/A |N/A | |
| |int32_t |VNx1SI|VNx2SI|VNx4SI |VNx8SI |N/A |N/A |N/A | |
| |uint32_t|VNx1SI|VNx2SI|VNx4SI |VNx8SI |N/A |N/A |N/A | |
| |int16_t |VNx2HI|VNx4HI|VNx8HI |VNx16HI|VNx1HI |N/A |N/A | |
| |uint16_t|VNx2HI|VNx4HI|VNx8HI |VNx16HI|VNx1HI |N/A |N/A | |
| |int8_t |VNx4QI|VNx8QI|VNx16QI|VNx32QI|VNx2QI |VNx1QI |N/A | |
| |uint8_t |VNx4QI|VNx8QI|VNx16QI|VNx32QI|VNx2QI |VNx1QI |N/A | |
| |float64 |N/A |N/A |N/A |N/A |N/A |N/A |N/A | |
| |float32 |VNx1SF|VNx2SF|VNx4SF |VNx8SF |N/A |N/A |N/A | |
| |float16 |VNx2HF|VNx4HF|VNx8HF |VNx16HF|VNx1HF |N/A |N/A | |
| |
| Mask Types Encode the ratio of SEW/LMUL into the |
| mask types. There are the following mask types. |
| |
| n = SEW/LMUL |
| |
| |Types|n=1 |n=2 |n=4 |n=8 |n=16 |n=32 |n=64| |
| |bool |VNx32BI|VNx16BI|VNx8BI|VNx4BI|VNx2BI|VNx1BI|N/A | |
| |
| TODO: FP16 vector needs support of 'zvfh', we don't support it yet. */ |
| |
| /* Return 'REQUIREMENT' for machine_mode 'MODE'. |
| For example: 'MODE' = VNx64BImode needs TARGET_MIN_VLEN > 32. */ |
| #ifndef ENTRY |
| #define ENTRY(MODE, REQUIREMENT) |
| #endif |
| /* Flag of FP32 vector. */ |
| #ifndef TARGET_VECTOR_FP32 |
| #define TARGET_VECTOR_FP32 \ |
| (TARGET_HARD_FLOAT && (TARGET_VECTOR_ELEN_FP_32 || TARGET_VECTOR_ELEN_FP_64)) |
| #endif |
| /* Flag of FP64 vector. */ |
| #ifndef TARGET_VECTOR_FP64 |
| #define TARGET_VECTOR_FP64 \ |
| (TARGET_DOUBLE_FLOAT && TARGET_VECTOR_ELEN_FP_64 && (TARGET_MIN_VLEN > 32)) |
| #endif |
| |
| /* Mask modes. Disable VNx64BImode when TARGET_MIN_VLEN == 32. */ |
| ENTRY (VNx64BI, TARGET_MIN_VLEN > 32) |
| ENTRY (VNx32BI, true) |
| ENTRY (VNx16BI, true) |
| ENTRY (VNx8BI, true) |
| ENTRY (VNx4BI, true) |
| ENTRY (VNx2BI, true) |
| ENTRY (VNx1BI, true) |
| |
| /* SEW = 8. Disable VNx64QImode when TARGET_MIN_VLEN == 32. */ |
| ENTRY (VNx64QI, TARGET_MIN_VLEN > 32) |
| ENTRY (VNx32QI, true) |
| ENTRY (VNx16QI, true) |
| ENTRY (VNx8QI, true) |
| ENTRY (VNx4QI, true) |
| ENTRY (VNx2QI, true) |
| ENTRY (VNx1QI, true) |
| |
| /* SEW = 16. Disable VNx32HImode when TARGET_MIN_VLEN == 32. */ |
| ENTRY (VNx32HI, TARGET_MIN_VLEN > 32) |
| ENTRY (VNx16HI, true) |
| ENTRY (VNx8HI, true) |
| ENTRY (VNx4HI, true) |
| ENTRY (VNx2HI, true) |
| ENTRY (VNx1HI, true) |
| |
| /* TODO:Disable all FP16 vector, enable them when 'zvfh' is supported. */ |
| ENTRY (VNx32HF, false) |
| ENTRY (VNx16HF, false) |
| ENTRY (VNx8HF, false) |
| ENTRY (VNx4HF, false) |
| ENTRY (VNx2HF, false) |
| ENTRY (VNx1HF, false) |
| |
| /* SEW = 32. Disable VNx16SImode when TARGET_MIN_VLEN == 32. |
| For single-precision floating-point, we need TARGET_VECTOR_FP32 == |
| RVV_ENABLE. */ |
| ENTRY (VNx16SI, TARGET_MIN_VLEN > 32) |
| ENTRY (VNx8SI, true) |
| ENTRY (VNx4SI, true) |
| ENTRY (VNx2SI, true) |
| ENTRY (VNx1SI, true) |
| |
| ENTRY (VNx16SF, TARGET_VECTOR_FP32 && (TARGET_MIN_VLEN > 32)) |
| ENTRY (VNx8SF, TARGET_VECTOR_FP32) |
| ENTRY (VNx4SF, TARGET_VECTOR_FP32) |
| ENTRY (VNx2SF, TARGET_VECTOR_FP32) |
| ENTRY (VNx1SF, TARGET_VECTOR_FP32) |
| |
| /* SEW = 64. Enable when TARGET_MIN_VLEN > 32. |
| For double-precision floating-point, we need TARGET_VECTOR_FP64 == |
| RVV_ENABLE. */ |
| ENTRY (VNx8DI, TARGET_MIN_VLEN > 32) |
| ENTRY (VNx4DI, TARGET_MIN_VLEN > 32) |
| ENTRY (VNx2DI, TARGET_MIN_VLEN > 32) |
| ENTRY (VNx1DI, TARGET_MIN_VLEN > 32) |
| |
| ENTRY (VNx8DF, TARGET_VECTOR_FP64 && (TARGET_MIN_VLEN > 32)) |
| ENTRY (VNx4DF, TARGET_VECTOR_FP64) |
| ENTRY (VNx2DF, TARGET_VECTOR_FP64) |
| ENTRY (VNx1DF, TARGET_VECTOR_FP64) |
| |
| #undef TARGET_VECTOR_FP32 |
| #undef TARGET_VECTOR_FP64 |
| #undef ENTRY |