[Hexagon] Enabling ASM parsing on Hexagon backend and adding instruction parsing...

[oota-llvm.git] / test / MC / Hexagon / instructions / xtype_complex.s

diff --git a/test/MC/Hexagon/instructions/xtype_complex.s b/test/MC/Hexagon/instructions/xtype_complex.s
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+++ b/test/MC/Hexagon/instructions/xtype_complex.s
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+# RUN: llvm-mc -triple=hexagon -filetype=obj -o - %s | llvm-objdump -d - | FileCheck %s
+# Hexagon Programmer's Reference Manual 11.10.3 XTYPE/COMPLEX
+
+# Complex add/sub halfwords
+# CHECK: 90 de 54 c1
+r17:16 = vxaddsubh(r21:20, r31:30):sat
+# CHECK: d0 de 54 c1
+r17:16 = vxsubaddh(r21:20, r31:30):sat
+# CHECK: 10 de d4 c1
+r17:16 = vxaddsubh(r21:20, r31:30):rnd:>>1:sat
+# CHECK: 50 de d4 c1
+r17:16 = vxsubaddh(r21:20, r31:30):rnd:>>1:sat
+
+# Complex add/sub words
+# CHECK: 10 de 54 c1
+r17:16 = vxaddsubw(r21:20, r31:30):sat
+# CHECK: 50 de 54 c1
+r17:16 = vxsubaddw(r21:20, r31:30):sat
+
+# Complex multiply
+# CHECK: d0 df 15 e5
+r17:16 = cmpy(r21, r31):sat
+# CHECK: d0 df 95 e5
+r17:16 = cmpy(r21, r31):<<1:sat
+# CHECK: d0 df 55 e5
+r17:16 = cmpy(r21, r31*):sat
+# CHECK: d0 df d5 e5
+r17:16 = cmpy(r21, r31*):<<1:sat
+# CHECK: d0 df 15 e7
+r17:16 += cmpy(r21, r31):sat
+# CHECK: d0 df 95 e7
+r17:16 += cmpy(r21, r31):<<1:sat
+# CHECK: f0 df 15 e7
+r17:16 -= cmpy(r21, r31):sat
+# CHECK: f0 df 95 e7
+r17:16 -= cmpy(r21, r31):<<1:sat
+# CHECK: d0 df 55 e7
+r17:16 += cmpy(r21, r31*):sat
+# CHECK: d0 df d5 e7
+r17:16 += cmpy(r21, r31*):<<1:sat
+# CHECK: f0 df 55 e7
+r17:16 -= cmpy(r21, r31*):sat
+# CHECK: f0 df d5 e7
+r17:16 -= cmpy(r21, r31*):<<1:sat
+
+# Complex multiply real or imaginary
+# CHECK: 30 df 15 e5
+r17:16 = cmpyi(r21, r31)
+# CHECK: 50 df 15 e5
+r17:16 = cmpyr(r21, r31)
+# CHECK: 30 df 15 e7
+r17:16 += cmpyi(r21, r31)
+# CHECK: 50 df 15 e7
+r17:16 += cmpyr(r21, r31)
+
+# Complex multiply with round and pack
+# CHECK: d1 df 35 ed
+r17 = cmpy(r21, r31):rnd:sat
+# CHECK: d1 df b5 ed
+r17 = cmpy(r21, r31):<<1:rnd:sat
+# CHECK: d1 df 75 ed
+r17 = cmpy(r21, r31*):rnd:sat
+# CHECK: d1 df f5 ed
+r17 = cmpy(r21, r31*):<<1:rnd:sat
+
+# Complex multiply 32x16
+# CHECK: 91 df 14 c5
+r17 = cmpyiwh(r21:20, r31):<<1:rnd:sat
+# CHECK: b1 df 14 c5
+r17 = cmpyiwh(r21:20, r31*):<<1:rnd:sat
+# CHECK: d1 df 14 c5
+r17 = cmpyrwh(r21:20, r31):<<1:rnd:sat
+# CHECK: f1 df 14 c5
+r17 = cmpyrwh(r21:20, r31*):<<1:rnd:sat
+
+# Vector complex multiply real or imaginary
+# CHECK: d0 de 34 e8
+r17:16 = vcmpyr(r21:20, r31:30):sat
+# CHECK: d0 de b4 e8
+r17:16 = vcmpyr(r21:20, r31:30):<<1:sat
+# CHECK: d0 de 54 e8
+r17:16 = vcmpyi(r21:20, r31:30):sat
+# CHECK: d0 de d4 e8
+r17:16 = vcmpyi(r21:20, r31:30):<<1:sat
+# CHECK: 90 de 34 ea
+r17:16 += vcmpyr(r21:20, r31:30):sat
+# CHECK: 90 de 54 ea
+r17:16 += vcmpyi(r21:20, r31:30):sat
+
+# Vector complex conjugate
+# CHECK: f0 c0 94 80
+r17:16 = vconj(r21:20):sat
+
+# Vector complex rotate
+# CHECK: 10 df d4 c3
+r17:16 = vcrotate(r21:20, r31)
+
+# Vector reduce complex multiply real or imaginary
+# CHECK: 10 de 14 e8
+r17:16 = vrcmpyi(r21:20, r31:30)
+# CHECK: 30 de 14 e8
+r17:16 = vrcmpyr(r21:20, r31:30)
+# CHECK: 10 de 54 e8
+r17:16 = vrcmpyi(r21:20, r31:30*)
+# CHECK: 30 de 74 e8
+r17:16 = vrcmpyr(r21:20, r31:30*)
+
+# Vector reduce complex multiply by scalar
+# CHECK: 90 de b4 e8
+r17:16 = vrcmpys(r21:20, r31:30):<<1:sat:raw:hi
+# CHECK: 90 de f4 e8
+r17:16 = vrcmpys(r21:20, r31:30):<<1:sat:raw:lo
+# CHECK: 90 de b4 ea
+r17:16 += vrcmpys(r21:20, r31:30):<<1:sat:raw:hi
+# CHECK: 90 de f4 ea
+r17:16 += vrcmpys(r21:20, r31:30):<<1:sat:raw:lo
+
+# Vector reduce complex multiply by scalar with round and pack
+# CHECK: d1 de b4 e9
+r17 = vrcmpys(r21:20, r31:30):<<1:rnd:sat:raw:hi
+# CHECK: f1 de b4 e9
+r17 = vrcmpys(r21:20, r31:30):<<1:rnd:sat:raw:lo
+
+# Vector reduce complex rotate
+# CHECK: f0 ff d4 c3
+r17:16 = vrcrotate(r21:20, r31, #3)
+# CHECK: 30 ff b4 cb
+r17:16 += vrcrotate(r21:20, r31, #3)