Adding upstream version 1.20.14.upstream/1.20.14upstream

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>

1 files changed, 297 insertions, 0 deletions

diff --git a/src/math/atan2_s390x.s b/src/math/atan2_s390x.s
new file mode 100644
index 0000000..587b89e
--- /dev/null
+++ b/src/math/atan2_s390x.s
@@ -0,0 +1,297 @@
+// Copyright 2017 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+#include "textflag.h"
+
+#define PosInf		0x7FF0000000000000
+#define NegInf		0xFFF0000000000000
+#define NegZero		0x8000000000000000
+#define Pi		0x400921FB54442D18
+#define NegPi		0xC00921FB54442D18
+#define Pi3Div4		0x4002D97C7F3321D2	// 3Pi/4
+#define NegPi3Div4	0xC002D97C7F3321D2	// -3Pi/4
+#define PiDiv4		0x3FE921FB54442D18	// Pi/4
+#define NegPiDiv4	0xBFE921FB54442D18	// -Pi/4
+
+// Minimax polynomial coefficients and other constants
+DATA ·atan2rodataL25<> + 0(SB)/8, $0.199999999999554423E+00
+DATA ·atan2rodataL25<> + 8(SB)/8, $-.333333333333330928E+00
+DATA ·atan2rodataL25<> + 16(SB)/8, $0.111111110136634272E+00
+DATA ·atan2rodataL25<> + 24(SB)/8, $-.142857142828026806E+00
+DATA ·atan2rodataL25<> + 32(SB)/8, $0.769228118888682505E-01
+DATA ·atan2rodataL25<> + 40(SB)/8, $0.588059263575587687E-01
+DATA ·atan2rodataL25<> + 48(SB)/8, $-.909090711945939878E-01
+DATA ·atan2rodataL25<> + 56(SB)/8, $-.666641501287528609E-01
+DATA ·atan2rodataL25<> + 64(SB)/8, $0.472329433805024762E-01
+DATA ·atan2rodataL25<> + 72(SB)/8, $-.525380587584426406E-01
+DATA ·atan2rodataL25<> + 80(SB)/8, $-.422172007412067035E-01
+DATA ·atan2rodataL25<> + 88(SB)/8, $0.366935664549587481E-01
+DATA ·atan2rodataL25<> + 96(SB)/8, $0.220852012160300086E-01
+DATA ·atan2rodataL25<> + 104(SB)/8, $-.299856214685512712E-01
+DATA ·atan2rodataL25<> + 112(SB)/8, $0.726338160757602439E-02
+DATA ·atan2rodataL25<> + 120(SB)/8, $0.134893651284712515E-04
+DATA ·atan2rodataL25<> + 128(SB)/8, $-.291935324869629616E-02
+DATA ·atan2rodataL25<> + 136(SB)/8, $-.154797890856877418E-03
+DATA ·atan2rodataL25<> + 144(SB)/8, $0.843488472994227321E-03
+DATA ·atan2rodataL25<> + 152(SB)/8, $-.139950258898989925E-01
+GLOBL ·atan2rodataL25<> + 0(SB), RODATA, $160
+
+DATA ·atan2xpi2h<> + 0(SB)/8, $0x3ff330e4e4fa7b1b
+DATA ·atan2xpi2h<> + 8(SB)/8, $0xbff330e4e4fa7b1b
+DATA ·atan2xpi2h<> + 16(SB)/8, $0x400330e4e4fa7b1b
+DATA ·atan2xpi2h<> + 24(SB)/8, $0xc00330e4e4fa7b1b
+GLOBL ·atan2xpi2h<> + 0(SB), RODATA, $32
+DATA ·atan2xpim<> + 0(SB)/8, $0x3ff4f42b00000000
+GLOBL ·atan2xpim<> + 0(SB), RODATA, $8
+
+// Atan2 returns the arc tangent of y/x, using
+// the signs of the two to determine the quadrant
+// of the return value.
+//
+// Special cases are (in order):
+//      Atan2(y, NaN) = NaN
+//      Atan2(NaN, x) = NaN
+//      Atan2(+0, x>=0) = +0
+//      Atan2(-0, x>=0) = -0
+//      Atan2(+0, x<=-0) = +Pi
+//      Atan2(-0, x<=-0) = -Pi
+//      Atan2(y>0, 0) = +Pi/2
+//      Atan2(y<0, 0) = -Pi/2
+//      Atan2(+Inf, +Inf) = +Pi/4
+//      Atan2(-Inf, +Inf) = -Pi/4
+//      Atan2(+Inf, -Inf) = 3Pi/4
+//      Atan2(-Inf, -Inf) = -3Pi/4
+//      Atan2(y, +Inf) = 0
+//      Atan2(y>0, -Inf) = +Pi
+//      Atan2(y<0, -Inf) = -Pi
+//      Atan2(+Inf, x) = +Pi/2
+//      Atan2(-Inf, x) = -Pi/2
+// The algorithm used is minimax polynomial approximation
+// with coefficients determined with a Remez exchange algorithm.
+
+TEXT	·atan2Asm(SB), NOSPLIT, $0-24
+	// special case
+	MOVD	x+0(FP), R1
+	MOVD	y+8(FP), R2
+
+	// special case Atan2(NaN, y) = NaN
+	MOVD	$~(1<<63), R5
+	AND	R1, R5		// x = |x|
+	MOVD	$PosInf, R3
+	CMPUBLT	R3, R5, returnX
+
+	// special case Atan2(x, NaN) = NaN
+	MOVD	$~(1<<63), R5
+	AND	R2, R5
+	CMPUBLT R3, R5, returnY
+
+	MOVD	$NegZero, R3
+	CMPUBEQ	R3, R1, xIsNegZero
+
+	MOVD	$0, R3
+	CMPUBEQ	R3, R1, xIsPosZero
+
+	MOVD	$PosInf, R4
+	CMPUBEQ	R4, R2, yIsPosInf
+
+	MOVD	$NegInf, R4
+	CMPUBEQ	R4, R2, yIsNegInf
+	BR	Normal
+xIsNegZero:
+	// special case Atan(-0, y>=0) = -0
+	MOVD	$0, R4
+	CMPBLE	R4, R2, returnX
+
+	//special case Atan2(-0, y<=-0) = -Pi
+	MOVD	$NegZero, R4
+	CMPBGE	R4, R2, returnNegPi
+	BR	Normal
+xIsPosZero:
+	//special case Atan2(0, 0) = 0
+	MOVD	$0, R4
+	CMPUBEQ	R4, R2, returnX
+
+	//special case Atan2(0, y<=-0) = Pi
+	MOVD	$NegZero, R4
+	CMPBGE	R4, R2, returnPi
+	BR Normal
+yIsNegInf:
+	//special case Atan2(+Inf, -Inf) = 3Pi/4
+	MOVD	$PosInf, R3
+	CMPUBEQ	R3, R1, posInfNegInf
+
+	//special case Atan2(-Inf, -Inf) = -3Pi/4
+	MOVD	$NegInf, R3
+	CMPUBEQ	R3, R1, negInfNegInf
+	BR Normal
+yIsPosInf:
+	//special case Atan2(+Inf, +Inf) = Pi/4
+	MOVD	$PosInf, R3
+	CMPUBEQ	R3, R1, posInfPosInf
+
+	//special case Atan2(-Inf, +Inf) = -Pi/4
+	MOVD	$NegInf, R3
+	CMPUBEQ	R3, R1, negInfPosInf
+
+	//special case Atan2(x, +Inf) = Copysign(0, x)
+	CMPBLT	R1, $0, returnNegZero
+	BR returnPosZero
+
+Normal:
+	FMOVD	x+0(FP), F0
+	FMOVD	y+8(FP), F2
+	MOVD	$·atan2rodataL25<>+0(SB), R9
+	LGDR	F0, R2
+	LGDR	F2, R1
+	RISBGNZ	$32, $63, $32, R2, R2
+	RISBGNZ	$32, $63, $32, R1, R1
+	WORD	$0xB9170032	//llgtr	%r3,%r2
+	RISBGZ	$63, $63, $33, R2, R5
+	WORD	$0xB9170041	//llgtr	%r4,%r1
+	WFLCDB	V0, V20
+	MOVW	R4, R6
+	MOVW	R3, R7
+	CMPUBLT	R6, R7, L17
+	WFDDB	V2, V0, V3
+	ADDW	$2, R5, R2
+	MOVW	R4, R6
+	MOVW	R3, R7
+	CMPUBLE	R6, R7, L20
+L3:
+	WFMDB	V3, V3, V4
+	VLEG	$0, 152(R9), V18
+	VLEG	$0, 144(R9), V16
+	FMOVD	136(R9), F1
+	FMOVD	128(R9), F5
+	FMOVD	120(R9), F6
+	WFMADB	V4, V16, V5, V16
+	WFMADB	V4, V6, V1, V6
+	FMOVD	112(R9), F7
+	WFMDB	V4, V4, V1
+	WFMADB	V4, V7, V18, V7
+	VLEG	$0, 104(R9), V18
+	WFMADB	V1, V6, V16, V6
+	CMPWU	R4, R3
+	FMOVD	96(R9), F5
+	VLEG	$0, 88(R9), V16
+	WFMADB	V4, V5, V18, V5
+	VLEG	$0, 80(R9), V18
+	VLEG	$0, 72(R9), V22
+	WFMADB	V4, V16, V18, V16
+	VLEG	$0, 64(R9), V18
+	WFMADB	V1, V7, V5, V7
+	WFMADB	V4, V18, V22, V18
+	WFMDB	V1, V1, V5
+	WFMADB	V1, V16, V18, V16
+	VLEG	$0, 56(R9), V18
+	WFMADB	V5, V6, V7, V6
+	VLEG	$0, 48(R9), V22
+	FMOVD	40(R9), F7
+	WFMADB	V4, V7, V18, V7
+	VLEG	$0, 32(R9), V18
+	WFMADB	V5, V6, V16, V6
+	WFMADB	V4, V18, V22, V18
+	VLEG	$0, 24(R9), V16
+	WFMADB	V1, V7, V18, V7
+	VLEG	$0, 16(R9), V18
+	VLEG	$0, 8(R9), V22
+	WFMADB	V4, V18, V16, V18
+	VLEG	$0, 0(R9), V16
+	WFMADB	V5, V6, V7, V6
+	WFMADB	V4, V16, V22, V16
+	FMUL	F3, F4
+	WFMADB	V1, V18, V16, V1
+	FMADD	F6, F5, F1
+	WFMADB	V4, V1, V3, V4
+	BLT	L18
+	BGT	L7
+	LTDBR	F2, F2
+	BLTU	L21
+L8:
+	LTDBR	F0, F0
+	BLTU	L22
+L9:
+	WFCHDBS	V2, V0, V0
+	BNE	L18
+L7:
+	MOVW	R1, R6
+	CMPBGE	R6, $0, L1
+L18:
+	RISBGZ	$58, $60, $3, R2, R2
+	MOVD	$·atan2xpi2h<>+0(SB), R1
+	MOVD	·atan2xpim<>+0(SB), R3
+	LDGR	R3, F0
+	WORD	$0xED021000	//madb	%f4,%f0,0(%r2,%r1)
+	BYTE	$0x40
+	BYTE	$0x1E
+L1:
+	FMOVD	F4, ret+16(FP)
+	RET
+
+L20:
+	LTDBR	F2, F2
+	BLTU	L23
+	FMOVD	F2, F6
+L4:
+	LTDBR	F0, F0
+	BLTU	L24
+	FMOVD	F0, F4
+L5:
+	WFCHDBS	V6, V4, V4
+	BEQ	L3
+L17:
+	WFDDB	V0, V2, V4
+	BYTE	$0x18	//lr	%r2,%r5
+	BYTE	$0x25
+	WORD	$0xB3130034	//lcdbr	%f3,%f4
+	BR	L3
+L23:
+	WORD	$0xB3130062	//lcdbr	%f6,%f2
+	BR	L4
+L22:
+	VLR	V20, V0
+	BR	L9
+L21:
+	WORD	$0xB3130022	//lcdbr	%f2,%f2
+	BR	L8
+L24:
+	VLR	V20, V4
+	BR	L5
+returnX:	//the result is same as the first argument
+	MOVD	R1, ret+16(FP)
+	RET
+returnY:	//the result is same as the second argument
+	MOVD	R2, ret+16(FP)
+	RET
+returnPi:
+	MOVD	$Pi, R1
+	MOVD	R1, ret+16(FP)
+	RET
+returnNegPi:
+	MOVD	$NegPi, R1
+	MOVD	R1, ret+16(FP)
+	RET
+posInfNegInf:
+	MOVD	$Pi3Div4, R1
+	MOVD	R1, ret+16(FP)
+	RET
+negInfNegInf:
+	MOVD	$NegPi3Div4, R1
+	MOVD	R1, ret+16(FP)
+	RET
+posInfPosInf:
+	MOVD	$PiDiv4, R1
+	MOVD	R1, ret+16(FP)
+	RET
+negInfPosInf:
+	MOVD	$NegPiDiv4, R1
+	MOVD	R1, ret+16(FP)
+	RET
+returnNegZero:
+	MOVD	$NegZero, R1
+	MOVD	R1, ret+16(FP)
+	RET
+returnPosZero:
+	MOVD	$0, ret+16(FP)
+	RET