Add RISC-V encodings for imediate shifts.

Also add the 32-bit shift instructions for RV64.
2016-08-19 14:54:16 -07:00
parent 08168e9d50
commit 24870f0db9
2 changed files with 29 additions and 8 deletions
--- a/meta/isa/riscv/encodings.py
+++ b/meta/isa/riscv/encodings.py
@@ -3,7 +3,7 @@ RISC-V Encodings.
 """
 from cretonne import base
 from defs import RV32, RV64
-from recipes import OP, R
+from recipes import OPIMM, OPIMM32, OP, OP32, R, Rshamt

 # Basic arithmetic binary instructions are encoded in an R-type instruction.
 for inst,           f3,    f7 in [
@@ -17,12 +17,19 @@ for inst,           f3,    f7 in [
    RV64.enc(inst.i64, R, OP(f3, f7))

 # Dynamic shifts have the same masking semantics as the cton base instructions
-for inst,           f3,    f7 in [
-        (base.ishl, 0b001, 0b0000000),
-        (base.ushr, 0b101, 0b0000000),
-        (base.sshr, 0b101, 0b0100000),
+for inst,           inst_imm,      f3,    f7 in [
+        (base.ishl, base.ishl_imm, 0b001, 0b0000000),
+        (base.ushr, base.ushr_imm, 0b101, 0b0000000),
+        (base.sshr, base.sshr_imm, 0b101, 0b0100000),
        ]:
    RV32.enc(inst.i32.i32, R, OP(f3, f7))
    RV64.enc(inst.i64.i64, R, OP(f3, f7))
+    RV64.enc(inst.i32.i32, R, OP32(f3, f7))
    # Allow i32 shift amounts in 64-bit shifts.
    RV64.enc(inst.i64.i32, R, OP(f3, f7))
+    RV64.enc(inst.i32.i64, R, OP32(f3, f7))
+
+    # Immediate shifts.
+    RV32.enc(inst_imm.i32, Rshamt, OPIMM(f3, f7))
+    RV64.enc(inst_imm.i64, Rshamt, OPIMM(f3, f7))
+    RV64.enc(inst_imm.i32, Rshamt, OPIMM32(f3, f7))
--- a/meta/isa/riscv/recipes.py
+++ b/meta/isa/riscv/recipes.py
@@ -9,7 +9,7 @@ instruction formats described in the reference:
    Version 2.1
 """
 from cretonne import EncRecipe
-from cretonne.formats import Binary
+from cretonne.formats import Binary, BinaryImm

 # The low 7 bits of a RISC-V instruction is the base opcode. All 32-bit
 # instructions have 11 as the two low bits, with bits 6:2 determining the base
@@ -34,9 +34,14 @@ def BRANCH(funct3):
    return 0b11000 | (funct3 << 5)


-def OPIMM(funct3):
+def OPIMM(funct3, funct7=0):
    assert funct3 <= 0b111
-    return 0b00100 | (funct3 << 5)
+    return 0b00100 | (funct3 << 5) | (funct7 << 8)
+
+
+def OPIMM32(funct3, funct7=0):
+    assert funct3 <= 0b111
+    return 0b00110 | (funct3 << 5) | (funct7 << 8)


 def OP(funct3, funct7):
@@ -45,6 +50,15 @@ def OP(funct3, funct7):
    return 0b01100 | (funct3 << 5) | (funct7 << 8)


+def OP32(funct3, funct7):
+    assert funct3 <= 0b111
+    assert funct7 <= 0b1111111
+    return 0b01110 | (funct3 << 5) | (funct7 << 8)
+
+
 # R-type 32-bit instructions: These are mostly binary arithmetic instructions.
 # The encbits are `opcode[6:2] | (funct3 << 5) | (funct7 << 8)
 R = EncRecipe('R', Binary)
+
+# R-type with an immediate shift amount instead of rs2.
+Rshamt = EncRecipe('Rshamt', BinaryImm)