[ValueTypes][RISCV] Cap RVV fixed-length vectors by size

This patch changes RVV's policy for its supported list of fixed-length
vector types by capping by vector size rather than element count. Now
all 1024-byte vectors (of supported element types) are supported, rather
than all 256-element vectors.

This is a more natural fit for the architecture, and allows us to, for
example, improve the support for vector bitcasts.

This change necessitated the adding of some new simple types to avoid
"regressing" on the number of currently-supported vectors. We round out
the 1024-byte types by adding `v512i8`, `v1024i8`, `v512i16` and
`v512f16`.

Reviewed By: craig.topper

Differential Revision: https://reviews.llvm.org/D103884
This commit is contained in:
Fraser Cormack 2021-06-07 08:39:22 +01:00
parent c92f505346
commit 502edebd9d
7 changed files with 461 additions and 3222 deletions

View File

@ -46,166 +46,170 @@ def v256i1 : ValueType<256, 23>; // 256 x i1 vector value
def v512i1 : ValueType<512, 24>; // 512 x i1 vector value
def v1024i1 : ValueType<1024, 25>; // 1024 x i1 vector value
def v1i8 : ValueType<8, 26>; // 1 x i8 vector value
def v2i8 : ValueType<16, 27>; // 2 x i8 vector value
def v4i8 : ValueType<32, 28>; // 4 x i8 vector value
def v8i8 : ValueType<64, 29>; // 8 x i8 vector value
def v16i8 : ValueType<128, 30>; // 16 x i8 vector value
def v32i8 : ValueType<256, 31>; // 32 x i8 vector value
def v64i8 : ValueType<512, 32>; // 64 x i8 vector value
def v128i8 : ValueType<1024, 33>; // 128 x i8 vector value
def v256i8 : ValueType<2048, 34>; // 256 x i8 vector value
def v1i8 : ValueType<8, 26>; // 1 x i8 vector value
def v2i8 : ValueType<16, 27>; // 2 x i8 vector value
def v4i8 : ValueType<32, 28>; // 4 x i8 vector value
def v8i8 : ValueType<64, 29>; // 8 x i8 vector value
def v16i8 : ValueType<128, 30>; // 16 x i8 vector value
def v32i8 : ValueType<256, 31>; // 32 x i8 vector value
def v64i8 : ValueType<512, 32>; // 64 x i8 vector value
def v128i8 : ValueType<1024, 33>; // 128 x i8 vector value
def v256i8 : ValueType<2048, 34>; // 256 x i8 vector value
def v512i8 : ValueType<4096, 35>; // 512 x i8 vector value
def v1024i8 : ValueType<8192, 36>; // 1024 x i8 vector value
def v1i16 : ValueType<16, 35>; // 1 x i16 vector value
def v2i16 : ValueType<32, 36>; // 2 x i16 vector value
def v3i16 : ValueType<48, 37>; // 3 x i16 vector value
def v4i16 : ValueType<64, 38>; // 4 x i16 vector value
def v8i16 : ValueType<128, 39>; // 8 x i16 vector value
def v16i16 : ValueType<256, 40>; // 16 x i16 vector value
def v32i16 : ValueType<512, 41>; // 32 x i16 vector value
def v64i16 : ValueType<1024, 42>; // 64 x i16 vector value
def v128i16 : ValueType<2048, 43>; // 128 x i16 vector value
def v256i16 : ValueType<4096, 44>; // 256 x i16 vector value
def v1i16 : ValueType<16, 37>; // 1 x i16 vector value
def v2i16 : ValueType<32, 38>; // 2 x i16 vector value
def v3i16 : ValueType<48, 39>; // 3 x i16 vector value
def v4i16 : ValueType<64, 40>; // 4 x i16 vector value
def v8i16 : ValueType<128, 41>; // 8 x i16 vector value
def v16i16 : ValueType<256, 42>; // 16 x i16 vector value
def v32i16 : ValueType<512, 43>; // 32 x i16 vector value
def v64i16 : ValueType<1024, 44>; // 64 x i16 vector value
def v128i16 : ValueType<2048, 45>; // 128 x i16 vector value
def v256i16 : ValueType<4096, 46>; // 256 x i16 vector value
def v512i16 : ValueType<8192, 47>; // 512 x i16 vector value
def v1i32 : ValueType<32, 45>; // 1 x i32 vector value
def v2i32 : ValueType<64, 46>; // 2 x i32 vector value
def v3i32 : ValueType<96, 47>; // 3 x i32 vector value
def v4i32 : ValueType<128, 48>; // 4 x i32 vector value
def v5i32 : ValueType<160, 49>; // 5 x i32 vector value
def v8i32 : ValueType<256, 50>; // 8 x i32 vector value
def v16i32 : ValueType<512, 51>; // 16 x i32 vector value
def v32i32 : ValueType<1024, 52>; // 32 x i32 vector value
def v64i32 : ValueType<2048, 53>; // 64 x i32 vector value
def v128i32 : ValueType<4096, 54>; // 128 x i32 vector value
def v256i32 : ValueType<8192, 55>; // 256 x i32 vector value
def v512i32 : ValueType<16384, 56>; // 512 x i32 vector value
def v1024i32 : ValueType<32768, 57>; // 1024 x i32 vector value
def v2048i32 : ValueType<65536, 58>; // 2048 x i32 vector value
def v1i32 : ValueType<32, 48>; // 1 x i32 vector value
def v2i32 : ValueType<64, 49>; // 2 x i32 vector value
def v3i32 : ValueType<96, 50>; // 3 x i32 vector value
def v4i32 : ValueType<128, 51>; // 4 x i32 vector value
def v5i32 : ValueType<160, 52>; // 5 x i32 vector value
def v8i32 : ValueType<256, 53>; // 8 x i32 vector value
def v16i32 : ValueType<512, 54>; // 16 x i32 vector value
def v32i32 : ValueType<1024, 55>; // 32 x i32 vector value
def v64i32 : ValueType<2048, 56>; // 64 x i32 vector value
def v128i32 : ValueType<4096, 57>; // 128 x i32 vector value
def v256i32 : ValueType<8192, 58>; // 256 x i32 vector value
def v512i32 : ValueType<16384, 59>; // 512 x i32 vector value
def v1024i32 : ValueType<32768, 60>; // 1024 x i32 vector value
def v2048i32 : ValueType<65536, 61>; // 2048 x i32 vector value
def v1i64 : ValueType<64, 59>; // 1 x i64 vector value
def v2i64 : ValueType<128, 60>; // 2 x i64 vector value
def v4i64 : ValueType<256, 61>; // 4 x i64 vector value
def v8i64 : ValueType<512, 62>; // 8 x i64 vector value
def v16i64 : ValueType<1024, 63>; // 16 x i64 vector value
def v32i64 : ValueType<2048, 64>; // 32 x i64 vector value
def v64i64 : ValueType<4096, 65>; // 64 x i64 vector value
def v128i64 : ValueType<8192, 66>; // 128 x i64 vector value
def v256i64 : ValueType<16384, 67>; // 256 x i64 vector value
def v1i64 : ValueType<64, 62>; // 1 x i64 vector value
def v2i64 : ValueType<128, 63>; // 2 x i64 vector value
def v4i64 : ValueType<256, 64>; // 4 x i64 vector value
def v8i64 : ValueType<512, 65>; // 8 x i64 vector value
def v16i64 : ValueType<1024, 66>; // 16 x i64 vector value
def v32i64 : ValueType<2048, 67>; // 32 x i64 vector value
def v64i64 : ValueType<4096, 68>; // 64 x i64 vector value
def v128i64 : ValueType<8192, 69>; // 128 x i64 vector value
def v256i64 : ValueType<16384, 70>; // 256 x i64 vector value
def v1i128 : ValueType<128, 68>; // 1 x i128 vector value
def v1i128 : ValueType<128, 71>; // 1 x i128 vector value
def v1f16 : ValueType<16, 69>; // 1 x f16 vector value
def v2f16 : ValueType<32, 70>; // 2 x f16 vector value
def v3f16 : ValueType<48, 71>; // 3 x f16 vector value
def v4f16 : ValueType<64, 72>; // 4 x f16 vector value
def v8f16 : ValueType<128, 73>; // 8 x f16 vector value
def v16f16 : ValueType<256, 74>; // 16 x f16 vector value
def v32f16 : ValueType<512, 75>; // 32 x f16 vector value
def v64f16 : ValueType<1024, 76>; // 64 x f16 vector value
def v128f16 : ValueType<2048, 77>; // 128 x f16 vector value
def v256f16 : ValueType<4096, 78>; // 256 x f16 vector value
def v1f16 : ValueType<16, 72>; // 1 x f16 vector value
def v2f16 : ValueType<32, 73>; // 2 x f16 vector value
def v3f16 : ValueType<48, 74>; // 3 x f16 vector value
def v4f16 : ValueType<64, 75>; // 4 x f16 vector value
def v8f16 : ValueType<128, 76>; // 8 x f16 vector value
def v16f16 : ValueType<256, 77>; // 16 x f16 vector value
def v32f16 : ValueType<512, 78>; // 32 x f16 vector value
def v64f16 : ValueType<1024, 79>; // 64 x f16 vector value
def v128f16 : ValueType<2048, 80>; // 128 x f16 vector value
def v256f16 : ValueType<4096, 81>; // 256 x f16 vector value
def v512f16 : ValueType<8192, 82>; // 512 x f16 vector value
def v2bf16 : ValueType<32, 79>; // 2 x bf16 vector value
def v3bf16 : ValueType<48, 80>; // 3 x bf16 vector value
def v4bf16 : ValueType<64, 81>; // 4 x bf16 vector value
def v8bf16 : ValueType<128, 82>; // 8 x bf16 vector value
def v16bf16 : ValueType<256, 83>; // 16 x bf16 vector value
def v32bf16 : ValueType<512, 84>; // 32 x bf16 vector value
def v64bf16 : ValueType<1024, 85>; // 64 x bf16 vector value
def v128bf16 : ValueType<2048, 86>; // 128 x bf16 vector value
def v2bf16 : ValueType<32, 83>; // 2 x bf16 vector value
def v3bf16 : ValueType<48, 84>; // 3 x bf16 vector value
def v4bf16 : ValueType<64, 85>; // 4 x bf16 vector value
def v8bf16 : ValueType<128, 86>; // 8 x bf16 vector value
def v16bf16 : ValueType<256, 87>; // 16 x bf16 vector value
def v32bf16 : ValueType<512, 88>; // 32 x bf16 vector value
def v64bf16 : ValueType<1024, 89>; // 64 x bf16 vector value
def v128bf16 : ValueType<2048, 90>; // 128 x bf16 vector value
def v1f32 : ValueType<32, 87>; // 1 x f32 vector value
def v2f32 : ValueType<64, 88>; // 2 x f32 vector value
def v3f32 : ValueType<96, 89>; // 3 x f32 vector value
def v4f32 : ValueType<128, 90>; // 4 x f32 vector value
def v5f32 : ValueType<160, 91>; // 5 x f32 vector value
def v8f32 : ValueType<256, 92>; // 8 x f32 vector value
def v16f32 : ValueType<512, 93>; // 16 x f32 vector value
def v32f32 : ValueType<1024, 94>; // 32 x f32 vector value
def v64f32 : ValueType<2048, 95>; // 64 x f32 vector value
def v128f32 : ValueType<4096, 96>; // 128 x f32 vector value
def v256f32 : ValueType<8192, 97>; // 256 x f32 vector value
def v512f32 : ValueType<16384, 98>; // 512 x f32 vector value
def v1024f32 : ValueType<32768, 99>; // 1024 x f32 vector value
def v2048f32 : ValueType<65536, 100>; // 2048 x f32 vector value
def v1f32 : ValueType<32, 91>; // 1 x f32 vector value
def v2f32 : ValueType<64, 92>; // 2 x f32 vector value
def v3f32 : ValueType<96, 93>; // 3 x f32 vector value
def v4f32 : ValueType<128, 94>; // 4 x f32 vector value
def v5f32 : ValueType<160, 95>; // 5 x f32 vector value
def v8f32 : ValueType<256, 96>; // 8 x f32 vector value
def v16f32 : ValueType<512, 97>; // 16 x f32 vector value
def v32f32 : ValueType<1024, 98>; // 32 x f32 vector value
def v64f32 : ValueType<2048, 99>; // 64 x f32 vector value
def v128f32 : ValueType<4096, 100>; // 128 x f32 vector value
def v256f32 : ValueType<8192, 101>; // 256 x f32 vector value
def v512f32 : ValueType<16384, 102>; // 512 x f32 vector value
def v1024f32 : ValueType<32768, 103>; // 1024 x f32 vector value
def v2048f32 : ValueType<65536, 104>; // 2048 x f32 vector value
def v1f64 : ValueType<64, 101>; // 1 x f64 vector value
def v2f64 : ValueType<128, 102>; // 2 x f64 vector value
def v4f64 : ValueType<256, 103>; // 4 x f64 vector value
def v8f64 : ValueType<512, 104>; // 8 x f64 vector value
def v16f64 : ValueType<1024, 105>; // 16 x f64 vector value
def v32f64 : ValueType<2048, 106>; // 32 x f64 vector value
def v64f64 : ValueType<4096, 107>; // 64 x f64 vector value
def v128f64 : ValueType<8192, 108>; // 128 x f64 vector value
def v256f64 : ValueType<16384, 109>; // 256 x f64 vector value
def v1f64 : ValueType<64, 105>; // 1 x f64 vector value
def v2f64 : ValueType<128, 106>; // 2 x f64 vector value
def v4f64 : ValueType<256, 107>; // 4 x f64 vector value
def v8f64 : ValueType<512, 108>; // 8 x f64 vector value
def v16f64 : ValueType<1024, 109>; // 16 x f64 vector value
def v32f64 : ValueType<2048, 110>; // 32 x f64 vector value
def v64f64 : ValueType<4096, 111>; // 64 x f64 vector value
def v128f64 : ValueType<8192, 112>; // 128 x f64 vector value
def v256f64 : ValueType<16384, 113>; // 256 x f64 vector value
def nxv1i1 : ValueType<1, 110>; // n x 1 x i1 vector value
def nxv2i1 : ValueType<2, 111>; // n x 2 x i1 vector value
def nxv4i1 : ValueType<4, 112>; // n x 4 x i1 vector value
def nxv8i1 : ValueType<8, 113>; // n x 8 x i1 vector value
def nxv16i1 : ValueType<16, 114>; // n x 16 x i1 vector value
def nxv32i1 : ValueType<32, 115>; // n x 32 x i1 vector value
def nxv64i1 : ValueType<64, 116>; // n x 64 x i1 vector value
def nxv1i1 : ValueType<1, 114>; // n x 1 x i1 vector value
def nxv2i1 : ValueType<2, 115>; // n x 2 x i1 vector value
def nxv4i1 : ValueType<4, 116>; // n x 4 x i1 vector value
def nxv8i1 : ValueType<8, 117>; // n x 8 x i1 vector value
def nxv16i1 : ValueType<16, 118>; // n x 16 x i1 vector value
def nxv32i1 : ValueType<32, 119>; // n x 32 x i1 vector value
def nxv64i1 : ValueType<64, 120>; // n x 64 x i1 vector value
def nxv1i8 : ValueType<8, 117>; // n x 1 x i8 vector value
def nxv2i8 : ValueType<16, 118>; // n x 2 x i8 vector value
def nxv4i8 : ValueType<32, 119>; // n x 4 x i8 vector value
def nxv8i8 : ValueType<64, 120>; // n x 8 x i8 vector value
def nxv16i8 : ValueType<128, 121>; // n x 16 x i8 vector value
def nxv32i8 : ValueType<256, 122>; // n x 32 x i8 vector value
def nxv64i8 : ValueType<512, 123>; // n x 64 x i8 vector value
def nxv1i8 : ValueType<8, 121>; // n x 1 x i8 vector value
def nxv2i8 : ValueType<16, 122>; // n x 2 x i8 vector value
def nxv4i8 : ValueType<32, 123>; // n x 4 x i8 vector value
def nxv8i8 : ValueType<64, 124>; // n x 8 x i8 vector value
def nxv16i8 : ValueType<128, 125>; // n x 16 x i8 vector value
def nxv32i8 : ValueType<256, 126>; // n x 32 x i8 vector value
def nxv64i8 : ValueType<512, 127>; // n x 64 x i8 vector value
def nxv1i16 : ValueType<16, 124>; // n x 1 x i16 vector value
def nxv2i16 : ValueType<32, 125>; // n x 2 x i16 vector value
def nxv4i16 : ValueType<64, 126>; // n x 4 x i16 vector value
def nxv8i16 : ValueType<128, 127>; // n x 8 x i16 vector value
def nxv16i16 : ValueType<256, 128>; // n x 16 x i16 vector value
def nxv32i16 : ValueType<512, 129>; // n x 32 x i16 vector value
def nxv1i16 : ValueType<16, 128>; // n x 1 x i16 vector value
def nxv2i16 : ValueType<32, 129>; // n x 2 x i16 vector value
def nxv4i16 : ValueType<64, 130>; // n x 4 x i16 vector value
def nxv8i16 : ValueType<128, 131>; // n x 8 x i16 vector value
def nxv16i16 : ValueType<256, 132>; // n x 16 x i16 vector value
def nxv32i16 : ValueType<512, 133>; // n x 32 x i16 vector value
def nxv1i32 : ValueType<32, 130>; // n x 1 x i32 vector value
def nxv2i32 : ValueType<64, 131>; // n x 2 x i32 vector value
def nxv4i32 : ValueType<128, 132>; // n x 4 x i32 vector value
def nxv8i32 : ValueType<256, 133>; // n x 8 x i32 vector value
def nxv16i32 : ValueType<512, 134>; // n x 16 x i32 vector value
def nxv32i32 : ValueType<1024, 135>; // n x 32 x i32 vector value
def nxv1i32 : ValueType<32, 134>; // n x 1 x i32 vector value
def nxv2i32 : ValueType<64, 135>; // n x 2 x i32 vector value
def nxv4i32 : ValueType<128, 136>; // n x 4 x i32 vector value
def nxv8i32 : ValueType<256, 137>; // n x 8 x i32 vector value
def nxv16i32 : ValueType<512, 138>; // n x 16 x i32 vector value
def nxv32i32 : ValueType<1024, 139>; // n x 32 x i32 vector value
def nxv1i64 : ValueType<64, 136>; // n x 1 x i64 vector value
def nxv2i64 : ValueType<128, 137>; // n x 2 x i64 vector value
def nxv4i64 : ValueType<256, 138>; // n x 4 x i64 vector value
def nxv8i64 : ValueType<512, 139>; // n x 8 x i64 vector value
def nxv16i64 : ValueType<1024, 140>; // n x 16 x i64 vector value
def nxv32i64 : ValueType<2048, 141>; // n x 32 x i64 vector value
def nxv1i64 : ValueType<64, 140>; // n x 1 x i64 vector value
def nxv2i64 : ValueType<128, 141>; // n x 2 x i64 vector value
def nxv4i64 : ValueType<256, 142>; // n x 4 x i64 vector value
def nxv8i64 : ValueType<512, 143>; // n x 8 x i64 vector value
def nxv16i64 : ValueType<1024, 144>; // n x 16 x i64 vector value
def nxv32i64 : ValueType<2048, 145>; // n x 32 x i64 vector value
def nxv1f16 : ValueType<16, 142>; // n x 1 x f16 vector value
def nxv2f16 : ValueType<32, 143>; // n x 2 x f16 vector value
def nxv4f16 : ValueType<64, 144>; // n x 4 x f16 vector value
def nxv8f16 : ValueType<128, 145>; // n x 8 x f16 vector value
def nxv16f16 : ValueType<256, 146>; // n x 16 x f16 vector value
def nxv32f16 : ValueType<512, 147>; // n x 32 x f16 vector value
def nxv1f16 : ValueType<16, 146>; // n x 1 x f16 vector value
def nxv2f16 : ValueType<32, 147>; // n x 2 x f16 vector value
def nxv4f16 : ValueType<64, 148>; // n x 4 x f16 vector value
def nxv8f16 : ValueType<128, 149>; // n x 8 x f16 vector value
def nxv16f16 : ValueType<256, 150>; // n x 16 x f16 vector value
def nxv32f16 : ValueType<512, 151>; // n x 32 x f16 vector value
def nxv1bf16 : ValueType<16, 148>; // n x 1 x bf16 vector value
def nxv2bf16 : ValueType<32, 149>; // n x 2 x bf16 vector value
def nxv4bf16 : ValueType<64, 150>; // n x 4 x bf16 vector value
def nxv8bf16 : ValueType<128, 151>; // n x 8 x bf16 vector value
def nxv1bf16 : ValueType<16, 152>; // n x 1 x bf16 vector value
def nxv2bf16 : ValueType<32, 153>; // n x 2 x bf16 vector value
def nxv4bf16 : ValueType<64, 154>; // n x 4 x bf16 vector value
def nxv8bf16 : ValueType<128, 155>; // n x 8 x bf16 vector value
def nxv1f32 : ValueType<32, 152>; // n x 1 x f32 vector value
def nxv2f32 : ValueType<64, 153>; // n x 2 x f32 vector value
def nxv4f32 : ValueType<128, 154>; // n x 4 x f32 vector value
def nxv8f32 : ValueType<256, 155>; // n x 8 x f32 vector value
def nxv16f32 : ValueType<512, 156>; // n x 16 x f32 vector value
def nxv1f32 : ValueType<32, 156>; // n x 1 x f32 vector value
def nxv2f32 : ValueType<64, 157>; // n x 2 x f32 vector value
def nxv4f32 : ValueType<128, 158>; // n x 4 x f32 vector value
def nxv8f32 : ValueType<256, 159>; // n x 8 x f32 vector value
def nxv16f32 : ValueType<512, 160>; // n x 16 x f32 vector value
def nxv1f64 : ValueType<64, 157>; // n x 1 x f64 vector value
def nxv2f64 : ValueType<128, 158>; // n x 2 x f64 vector value
def nxv4f64 : ValueType<256, 159>; // n x 4 x f64 vector value
def nxv8f64 : ValueType<512, 160>; // n x 8 x f64 vector value
def nxv1f64 : ValueType<64, 161>; // n x 1 x f64 vector value
def nxv2f64 : ValueType<128, 162>; // n x 2 x f64 vector value
def nxv4f64 : ValueType<256, 163>; // n x 4 x f64 vector value
def nxv8f64 : ValueType<512, 164>; // n x 8 x f64 vector value
def x86mmx : ValueType<64, 161>; // X86 MMX value
def FlagVT : ValueType<0, 162>; // Pre-RA sched glue
def isVoid : ValueType<0, 163>; // Produces no value
def untyped : ValueType<8, 164>; // Produces an untyped value
def funcref : ValueType<0, 165>; // WebAssembly's funcref type
def externref : ValueType<0, 166>; // WebAssembly's externref type
def x86amx : ValueType<8192, 167>; // X86 AMX value
def x86mmx : ValueType<64, 165>; // X86 MMX value
def FlagVT : ValueType<0, 166>; // Pre-RA sched glue
def isVoid : ValueType<0, 167>; // Produces no value
def untyped : ValueType<8, 168>; // Produces an untyped value
def funcref : ValueType<0, 169>; // WebAssembly's funcref type
def externref : ValueType<0, 170>; // WebAssembly's externref type
def x86amx : ValueType<8192, 171>; // X86 AMX value
def token : ValueType<0, 248>; // TokenTy

View File

@ -72,101 +72,105 @@ namespace llvm {
v512i1 = 24, // 512 x i1
v1024i1 = 25, // 1024 x i1
v1i8 = 26, // 1 x i8
v2i8 = 27, // 2 x i8
v4i8 = 28, // 4 x i8
v8i8 = 29, // 8 x i8
v16i8 = 30, // 16 x i8
v32i8 = 31, // 32 x i8
v64i8 = 32, // 64 x i8
v128i8 = 33, // 128 x i8
v256i8 = 34, // 256 x i8
v1i8 = 26, // 1 x i8
v2i8 = 27, // 2 x i8
v4i8 = 28, // 4 x i8
v8i8 = 29, // 8 x i8
v16i8 = 30, // 16 x i8
v32i8 = 31, // 32 x i8
v64i8 = 32, // 64 x i8
v128i8 = 33, // 128 x i8
v256i8 = 34, // 256 x i8
v512i8 = 35, // 512 x i8
v1024i8 = 36, // 1024 x i8
v1i16 = 35, // 1 x i16
v2i16 = 36, // 2 x i16
v3i16 = 37, // 3 x i16
v4i16 = 38, // 4 x i16
v8i16 = 39, // 8 x i16
v16i16 = 40, // 16 x i16
v32i16 = 41, // 32 x i16
v64i16 = 42, // 64 x i16
v128i16 = 43, // 128 x i16
v256i16 = 44, // 256 x i16
v1i16 = 37, // 1 x i16
v2i16 = 38, // 2 x i16
v3i16 = 39, // 3 x i16
v4i16 = 40, // 4 x i16
v8i16 = 41, // 8 x i16
v16i16 = 42, // 16 x i16
v32i16 = 43, // 32 x i16
v64i16 = 44, // 64 x i16
v128i16 = 45, // 128 x i16
v256i16 = 46, // 256 x i16
v512i16 = 47, // 512 x i16
v1i32 = 45, // 1 x i32
v2i32 = 46, // 2 x i32
v3i32 = 47, // 3 x i32
v4i32 = 48, // 4 x i32
v5i32 = 49, // 5 x i32
v8i32 = 50, // 8 x i32
v16i32 = 51, // 16 x i32
v32i32 = 52, // 32 x i32
v64i32 = 53, // 64 x i32
v128i32 = 54, // 128 x i32
v256i32 = 55, // 256 x i32
v512i32 = 56, // 512 x i32
v1024i32 = 57, // 1024 x i32
v2048i32 = 58, // 2048 x i32
v1i32 = 48, // 1 x i32
v2i32 = 49, // 2 x i32
v3i32 = 50, // 3 x i32
v4i32 = 51, // 4 x i32
v5i32 = 52, // 5 x i32
v8i32 = 53, // 8 x i32
v16i32 = 54, // 16 x i32
v32i32 = 55, // 32 x i32
v64i32 = 56, // 64 x i32
v128i32 = 57, // 128 x i32
v256i32 = 58, // 256 x i32
v512i32 = 59, // 512 x i32
v1024i32 = 60, // 1024 x i32
v2048i32 = 61, // 2048 x i32
v1i64 = 59, // 1 x i64
v2i64 = 60, // 2 x i64
v4i64 = 61, // 4 x i64
v8i64 = 62, // 8 x i64
v16i64 = 63, // 16 x i64
v32i64 = 64, // 32 x i64
v64i64 = 65, // 64 x i64
v128i64 = 66, // 128 x i64
v256i64 = 67, // 256 x i64
v1i64 = 62, // 1 x i64
v2i64 = 63, // 2 x i64
v4i64 = 64, // 4 x i64
v8i64 = 65, // 8 x i64
v16i64 = 66, // 16 x i64
v32i64 = 67, // 32 x i64
v64i64 = 68, // 64 x i64
v128i64 = 69, // 128 x i64
v256i64 = 70, // 256 x i64
v1i128 = 68, // 1 x i128
v1i128 = 71, // 1 x i128
FIRST_INTEGER_FIXEDLEN_VECTOR_VALUETYPE = v1i1,
LAST_INTEGER_FIXEDLEN_VECTOR_VALUETYPE = v1i128,
v1f16 = 69, // 1 x f16
v2f16 = 70, // 2 x f16
v3f16 = 71, // 3 x f16
v4f16 = 72, // 4 x f16
v8f16 = 73, // 8 x f16
v16f16 = 74, // 16 x f16
v32f16 = 75, // 32 x f16
v64f16 = 76, // 64 x f16
v128f16 = 77, // 128 x f16
v256f16 = 78, // 256 x f16
v1f16 = 72, // 1 x f16
v2f16 = 73, // 2 x f16
v3f16 = 74, // 3 x f16
v4f16 = 75, // 4 x f16
v8f16 = 76, // 8 x f16
v16f16 = 77, // 16 x f16
v32f16 = 78, // 32 x f16
v64f16 = 79, // 64 x f16
v128f16 = 80, // 128 x f16
v256f16 = 81, // 256 x f16
v512f16 = 82, // 256 x f16
v2bf16 = 79, // 2 x bf16
v3bf16 = 80, // 3 x bf16
v4bf16 = 81, // 4 x bf16
v8bf16 = 82, // 8 x bf16
v16bf16 = 83, // 16 x bf16
v32bf16 = 84, // 32 x bf16
v64bf16 = 85, // 64 x bf16
v128bf16 = 86, // 128 x bf16
v2bf16 = 83, // 2 x bf16
v3bf16 = 84, // 3 x bf16
v4bf16 = 85, // 4 x bf16
v8bf16 = 86, // 8 x bf16
v16bf16 = 87, // 16 x bf16
v32bf16 = 88, // 32 x bf16
v64bf16 = 89, // 64 x bf16
v128bf16 = 90, // 128 x bf16
v1f32 = 87, // 1 x f32
v2f32 = 88, // 2 x f32
v3f32 = 89, // 3 x f32
v4f32 = 90, // 4 x f32
v5f32 = 91, // 5 x f32
v8f32 = 92, // 8 x f32
v16f32 = 93, // 16 x f32
v32f32 = 94, // 32 x f32
v64f32 = 95, // 64 x f32
v128f32 = 96, // 128 x f32
v256f32 = 97, // 256 x f32
v512f32 = 98, // 512 x f32
v1024f32 = 99, // 1024 x f32
v2048f32 = 100, // 2048 x f32
v1f32 = 91, // 1 x f32
v2f32 = 92, // 2 x f32
v3f32 = 93, // 3 x f32
v4f32 = 94, // 4 x f32
v5f32 = 95, // 5 x f32
v8f32 = 96, // 8 x f32
v16f32 = 97, // 16 x f32
v32f32 = 98, // 32 x f32
v64f32 = 99, // 64 x f32
v128f32 = 100, // 128 x f32
v256f32 = 101, // 256 x f32
v512f32 = 102, // 512 x f32
v1024f32 = 103, // 1024 x f32
v2048f32 = 104, // 2048 x f32
v1f64 = 101, // 1 x f64
v2f64 = 102, // 2 x f64
v4f64 = 103, // 4 x f64
v8f64 = 104, // 8 x f64
v16f64 = 105, // 16 x f64
v32f64 = 106, // 32 x f64
v64f64 = 107, // 64 x f64
v128f64 = 108, // 128 x f64
v256f64 = 109, // 256 x f64
v1f64 = 105, // 1 x f64
v2f64 = 106, // 2 x f64
v4f64 = 107, // 4 x f64
v8f64 = 108, // 8 x f64
v16f64 = 109, // 16 x f64
v32f64 = 110, // 32 x f64
v64f64 = 111, // 64 x f64
v128f64 = 112, // 128 x f64
v256f64 = 113, // 256 x f64
FIRST_FP_FIXEDLEN_VECTOR_VALUETYPE = v1f16,
LAST_FP_FIXEDLEN_VECTOR_VALUETYPE = v256f64,
@ -174,68 +178,68 @@ namespace llvm {
FIRST_FIXEDLEN_VECTOR_VALUETYPE = v1i1,
LAST_FIXEDLEN_VECTOR_VALUETYPE = v256f64,
nxv1i1 = 110, // n x 1 x i1
nxv2i1 = 111, // n x 2 x i1
nxv4i1 = 112, // n x 4 x i1
nxv8i1 = 113, // n x 8 x i1
nxv16i1 = 114, // n x 16 x i1
nxv32i1 = 115, // n x 32 x i1
nxv64i1 = 116, // n x 64 x i1
nxv1i1 = 114, // n x 1 x i1
nxv2i1 = 115, // n x 2 x i1
nxv4i1 = 116, // n x 4 x i1
nxv8i1 = 117, // n x 8 x i1
nxv16i1 = 118, // n x 16 x i1
nxv32i1 = 119, // n x 32 x i1
nxv64i1 = 120, // n x 64 x i1
nxv1i8 = 117, // n x 1 x i8
nxv2i8 = 118, // n x 2 x i8
nxv4i8 = 119, // n x 4 x i8
nxv8i8 = 120, // n x 8 x i8
nxv16i8 = 121, // n x 16 x i8
nxv32i8 = 122, // n x 32 x i8
nxv64i8 = 123, // n x 64 x i8
nxv1i8 = 121, // n x 1 x i8
nxv2i8 = 122, // n x 2 x i8
nxv4i8 = 123, // n x 4 x i8
nxv8i8 = 124, // n x 8 x i8
nxv16i8 = 125, // n x 16 x i8
nxv32i8 = 126, // n x 32 x i8
nxv64i8 = 127, // n x 64 x i8
nxv1i16 = 124, // n x 1 x i16
nxv2i16 = 125, // n x 2 x i16
nxv4i16 = 126, // n x 4 x i16
nxv8i16 = 127, // n x 8 x i16
nxv16i16 = 128, // n x 16 x i16
nxv32i16 = 129, // n x 32 x i16
nxv1i16 = 128, // n x 1 x i16
nxv2i16 = 129, // n x 2 x i16
nxv4i16 = 130, // n x 4 x i16
nxv8i16 = 131, // n x 8 x i16
nxv16i16 = 132, // n x 16 x i16
nxv32i16 = 133, // n x 32 x i16
nxv1i32 = 130, // n x 1 x i32
nxv2i32 = 131, // n x 2 x i32
nxv4i32 = 132, // n x 4 x i32
nxv8i32 = 133, // n x 8 x i32
nxv16i32 = 134, // n x 16 x i32
nxv32i32 = 135, // n x 32 x i32
nxv1i32 = 134, // n x 1 x i32
nxv2i32 = 135, // n x 2 x i32
nxv4i32 = 136, // n x 4 x i32
nxv8i32 = 137, // n x 8 x i32
nxv16i32 = 138, // n x 16 x i32
nxv32i32 = 139, // n x 32 x i32
nxv1i64 = 136, // n x 1 x i64
nxv2i64 = 137, // n x 2 x i64
nxv4i64 = 138, // n x 4 x i64
nxv8i64 = 139, // n x 8 x i64
nxv16i64 = 140, // n x 16 x i64
nxv32i64 = 141, // n x 32 x i64
nxv1i64 = 140, // n x 1 x i64
nxv2i64 = 141, // n x 2 x i64
nxv4i64 = 142, // n x 4 x i64
nxv8i64 = 143, // n x 8 x i64
nxv16i64 = 144, // n x 16 x i64
nxv32i64 = 145, // n x 32 x i64
FIRST_INTEGER_SCALABLE_VECTOR_VALUETYPE = nxv1i1,
LAST_INTEGER_SCALABLE_VECTOR_VALUETYPE = nxv32i64,
nxv1f16 = 142, // n x 1 x f16
nxv2f16 = 143, // n x 2 x f16
nxv4f16 = 144, // n x 4 x f16
nxv8f16 = 145, // n x 8 x f16
nxv16f16 = 146, // n x 16 x f16
nxv32f16 = 147, // n x 32 x f16
nxv1f16 = 146, // n x 1 x f16
nxv2f16 = 147, // n x 2 x f16
nxv4f16 = 148, // n x 4 x f16
nxv8f16 = 149, // n x 8 x f16
nxv16f16 = 150, // n x 16 x f16
nxv32f16 = 151, // n x 32 x f16
nxv1bf16 = 148, // n x 1 x bf16
nxv2bf16 = 149, // n x 2 x bf16
nxv4bf16 = 150, // n x 4 x bf16
nxv8bf16 = 151, // n x 8 x bf16
nxv1bf16 = 152, // n x 1 x bf16
nxv2bf16 = 153, // n x 2 x bf16
nxv4bf16 = 154, // n x 4 x bf16
nxv8bf16 = 155, // n x 8 x bf16
nxv1f32 = 152, // n x 1 x f32
nxv2f32 = 153, // n x 2 x f32
nxv4f32 = 154, // n x 4 x f32
nxv8f32 = 155, // n x 8 x f32
nxv16f32 = 156, // n x 16 x f32
nxv1f32 = 156, // n x 1 x f32
nxv2f32 = 157, // n x 2 x f32
nxv4f32 = 158, // n x 4 x f32
nxv8f32 = 159, // n x 8 x f32
nxv16f32 = 160, // n x 16 x f32
nxv1f64 = 157, // n x 1 x f64
nxv2f64 = 158, // n x 2 x f64
nxv4f64 = 159, // n x 4 x f64
nxv8f64 = 160, // n x 8 x f64
nxv1f64 = 161, // n x 1 x f64
nxv2f64 = 162, // n x 2 x f64
nxv4f64 = 163, // n x 4 x f64
nxv8f64 = 164, // n x 8 x f64
FIRST_FP_SCALABLE_VECTOR_VALUETYPE = nxv1f16,
LAST_FP_SCALABLE_VECTOR_VALUETYPE = nxv8f64,
@ -246,19 +250,19 @@ namespace llvm {
FIRST_VECTOR_VALUETYPE = v1i1,
LAST_VECTOR_VALUETYPE = nxv8f64,
x86mmx = 161, // This is an X86 MMX value
x86mmx = 165, // This is an X86 MMX value
Glue = 162, // This glues nodes together during pre-RA sched
Glue = 166, // This glues nodes together during pre-RA sched
isVoid = 163, // This has no value
isVoid = 167, // This has no value
Untyped = 164, // This value takes a register, but has
Untyped = 168, // This value takes a register, but has
// unspecified type. The register class
// will be determined by the opcode.
funcref = 165, // WebAssembly's funcref type
externref = 166, // WebAssembly's externref type
x86amx = 167, // This is an X86 AMX value
funcref = 169, // WebAssembly's funcref type
externref = 170, // WebAssembly's externref type
x86amx = 171, // This is an X86 AMX value
FIRST_VALUETYPE = 1, // This is always the beginning of the list.
LAST_VALUETYPE = x86amx, // This always remains at the end of the list.
@ -535,6 +539,8 @@ namespace llvm {
case v64i8:
case v128i8:
case v256i8:
case v512i8:
case v1024i8:
case nxv1i8:
case nxv2i8:
case nxv4i8:
@ -552,6 +558,7 @@ namespace llvm {
case v64i16:
case v128i16:
case v256i16:
case v512i16:
case nxv1i16:
case nxv2i16:
case nxv4i16:
@ -604,6 +611,7 @@ namespace llvm {
case v64f16:
case v128f16:
case v256f16:
case v512f16:
case nxv1f16:
case nxv2f16:
case nxv4f16:
@ -665,10 +673,14 @@ namespace llvm {
case v2048i32:
case v2048f32: return 2048;
case v1024i1:
case v1024i8:
case v1024i32:
case v1024f32: return 1024;
case v512i1:
case v512i8:
case v512i16:
case v512i32:
case v512f16:
case v512f32: return 512;
case v256i1:
case v256i8:
@ -986,14 +998,18 @@ namespace llvm {
case v64f32:
case v32f64: return TypeSize::Fixed(2048);
case nxv32i64: return TypeSize::Scalable(2048);
case v512i8:
case v256i16:
case v128i32:
case v64i64:
case v256f16:
case v128f32:
case v64f64: return TypeSize::Fixed(4096);
case v1024i8:
case v512i16:
case v256i32:
case v128i64:
case v512f16:
case v256f32:
case x86amx:
case v128f64: return TypeSize::Fixed(8192);
@ -1158,6 +1174,8 @@ namespace llvm {
if (NumElements == 64) return MVT::v64i8;
if (NumElements == 128) return MVT::v128i8;
if (NumElements == 256) return MVT::v256i8;
if (NumElements == 512) return MVT::v512i8;
if (NumElements == 1024) return MVT::v1024i8;
break;
case MVT::i16:
if (NumElements == 1) return MVT::v1i16;
@ -1170,6 +1188,7 @@ namespace llvm {
if (NumElements == 64) return MVT::v64i16;
if (NumElements == 128) return MVT::v128i16;
if (NumElements == 256) return MVT::v256i16;
if (NumElements == 512) return MVT::v512i16;
break;
case MVT::i32:
if (NumElements == 1) return MVT::v1i32;
@ -1212,6 +1231,7 @@ namespace llvm {
if (NumElements == 64) return MVT::v64f16;
if (NumElements == 128) return MVT::v128f16;
if (NumElements == 256) return MVT::v256f16;
if (NumElements == 512) return MVT::v512f16;
break;
case MVT::bf16:
if (NumElements == 2) return MVT::v2bf16;

View File

@ -238,6 +238,10 @@ Type *EVT::getTypeForEVT(LLVMContext &Context) const {
return FixedVectorType::get(Type::getInt8Ty(Context), 128);
case MVT::v256i8:
return FixedVectorType::get(Type::getInt8Ty(Context), 256);
case MVT::v512i8:
return FixedVectorType::get(Type::getInt8Ty(Context), 512);
case MVT::v1024i8:
return FixedVectorType::get(Type::getInt8Ty(Context), 1024);
case MVT::v1i16:
return FixedVectorType::get(Type::getInt16Ty(Context), 1);
case MVT::v2i16:
@ -258,6 +262,8 @@ Type *EVT::getTypeForEVT(LLVMContext &Context) const {
return FixedVectorType::get(Type::getInt16Ty(Context), 128);
case MVT::v256i16:
return FixedVectorType::get(Type::getInt16Ty(Context), 256);
case MVT::v512i16:
return FixedVectorType::get(Type::getInt16Ty(Context), 512);
case MVT::v1i32:
return FixedVectorType::get(Type::getInt32Ty(Context), 1);
case MVT::v2i32:
@ -326,6 +332,8 @@ Type *EVT::getTypeForEVT(LLVMContext &Context) const {
return FixedVectorType::get(Type::getHalfTy(Context), 128);
case MVT::v256f16:
return FixedVectorType::get(Type::getHalfTy(Context), 256);
case MVT::v512f16:
return FixedVectorType::get(Type::getHalfTy(Context), 512);
case MVT::v2bf16:
return FixedVectorType::get(Type::getBFloatTy(Context), 2);
case MVT::v3bf16:

View File

@ -1171,11 +1171,11 @@ static bool useRVVForFixedLengthVectorVT(MVT VT,
if (!Subtarget.useRVVForFixedLengthVectors())
return false;
// We only support a set of vector types with an equivalent number of
// elements to avoid legalization issues. Therefore -- since we don't have
// v512i8/v512i16/etc -- the longest fixed-length vector type we support has
// 256 elements.
if (VT.getVectorNumElements() > 256)
// We only support a set of vector types with a consistent maximum fixed size
// across all supported vector element types to avoid legalization issues.
// Therefore -- since the largest is v1024i8/v512i16/etc -- the largest
// fixed-length vector type we support is 1024 bytes.
if (VT.getFixedSizeInBits() > 1024 * 8)
return false;
unsigned MinVLen = Subtarget.getMinRVVVectorSizeInBits();

File diff suppressed because it is too large Load Diff

View File

@ -99,6 +99,8 @@ StringRef llvm::getEnumName(MVT::SimpleValueType T) {
case MVT::v64i8: return "MVT::v64i8";
case MVT::v128i8: return "MVT::v128i8";
case MVT::v256i8: return "MVT::v256i8";
case MVT::v512i8: return "MVT::v512i8";
case MVT::v1024i8: return "MVT::v1024i8";
case MVT::v1i16: return "MVT::v1i16";
case MVT::v2i16: return "MVT::v2i16";
case MVT::v3i16: return "MVT::v3i16";
@ -109,6 +111,7 @@ StringRef llvm::getEnumName(MVT::SimpleValueType T) {
case MVT::v64i16: return "MVT::v64i16";
case MVT::v128i16: return "MVT::v128i16";
case MVT::v256i16: return "MVT::v256i16";
case MVT::v512i16: return "MVT::v512i16";
case MVT::v1i32: return "MVT::v1i32";
case MVT::v2i32: return "MVT::v2i32";
case MVT::v3i32: return "MVT::v3i32";
@ -143,6 +146,7 @@ StringRef llvm::getEnumName(MVT::SimpleValueType T) {
case MVT::v64f16: return "MVT::v64f16";
case MVT::v128f16: return "MVT::v128f16";
case MVT::v256f16: return "MVT::v256f16";
case MVT::v512f16: return "MVT::v512f16";
case MVT::v2bf16: return "MVT::v2bf16";
case MVT::v3bf16: return "MVT::v3bf16";
case MVT::v4bf16: return "MVT::v4bf16";