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authorBryan Wu <bryan.wu@analog.com>2007-05-06 14:50:22 -0700
committerLinus Torvalds <torvalds@woody.linux-foundation.org>2007-05-07 12:12:58 -0700
commit1394f03221790a988afc3e4b3cb79f2e477246a9 (patch)
tree2c1963c9a4f2d84a5e021307fde240c5d567cf70 /arch/blackfin/lib/divsi3.S
parent73243284463a761e04d69d22c7516b2be7de096c (diff)
blackfin architecture
This adds support for the Analog Devices Blackfin processor architecture, and currently supports the BF533, BF532, BF531, BF537, BF536, BF534, and BF561 (Dual Core) devices, with a variety of development platforms including those avaliable from Analog Devices (BF533-EZKit, BF533-STAMP, BF537-STAMP, BF561-EZKIT), and Bluetechnix! Tinyboards. The Blackfin architecture was jointly developed by Intel and Analog Devices Inc. (ADI) as the Micro Signal Architecture (MSA) core and introduced it in December of 2000. Since then ADI has put this core into its Blackfin processor family of devices. The Blackfin core has the advantages of a clean, orthogonal,RISC-like microprocessor instruction set. It combines a dual-MAC (Multiply/Accumulate), state-of-the-art signal processing engine and single-instruction, multiple-data (SIMD) multimedia capabilities into a single instruction-set architecture. The Blackfin architecture, including the instruction set, is described by the ADSP-BF53x/BF56x Blackfin Processor Programming Reference http://blackfin.uclinux.org/gf/download/frsrelease/29/2549/Blackfin_PRM.pdf The Blackfin processor is already supported by major releases of gcc, and there are binary and source rpms/tarballs for many architectures at: http://blackfin.uclinux.org/gf/project/toolchain/frs There is complete documentation, including "getting started" guides available at: http://docs.blackfin.uclinux.org/ which provides links to the sources and patches you will need in order to set up a cross-compiling environment for bfin-linux-uclibc This patch, as well as the other patches (toolchain, distribution, uClibc) are actively supported by Analog Devices Inc, at: http://blackfin.uclinux.org/ We have tested this on LTP, and our test plan (including pass/fails) can be found at: http://docs.blackfin.uclinux.org/doku.php?id=testing_the_linux_kernel [m.kozlowski@tuxland.pl: balance parenthesis in blackfin header files] Signed-off-by: Bryan Wu <bryan.wu@analog.com> Signed-off-by: Mariusz Kozlowski <m.kozlowski@tuxland.pl> Signed-off-by: Aubrey Li <aubrey.li@analog.com> Signed-off-by: Jie Zhang <jie.zhang@analog.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
Diffstat (limited to 'arch/blackfin/lib/divsi3.S')
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diff --git a/arch/blackfin/lib/divsi3.S b/arch/blackfin/lib/divsi3.S
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+/*
+ * File: arch/blackfin/lib/divsi3.S
+ * Based on:
+ * Author:
+ *
+ * Created:
+ * Description: 16 / 32 bit signed division.
+ * Special cases :
+ * 1) If(numerator == 0)
+ * return 0
+ * 2) If(denominator ==0)
+ * return positive max = 0x7fffffff
+ * 3) If(numerator == denominator)
+ * return 1
+ * 4) If(denominator ==1)
+ * return numerator
+ * 5) If(denominator == -1)
+ * return -numerator
+ *
+ * Operand : R0 - Numerator (i)
+ * R1 - Denominator (i)
+ * R0 - Quotient (o)
+ * Registers Used : R2-R7,P0-P2
+ *
+ * Modified:
+ * Copyright 2004-2006 Analog Devices Inc.
+ *
+ * Bugs: Enter bugs at http://blackfin.uclinux.org/
+ *
+ * This program 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 2 of the License, or
+ * (at your option) any later version.
+ *
+ * This program 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 this program; if not, see the file COPYING, or write
+ * to the Free Software Foundation, Inc.,
+ * 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ */
+
+.global ___divsi3;
+
+#ifdef CONFIG_ARITHMETIC_OPS_L1
+.section .l1.text
+#else
+.text
+#endif
+
+.align 2;
+___divsi3 :
+
+
+ R3 = R0 ^ R1;
+ R0 = ABS R0;
+
+ CC = V;
+
+ r3 = rot r3 by -1;
+ r1 = abs r1; /* now both positive, r3.30 means "negate result",
+ ** r3.31 means overflow, add one to result
+ */
+ cc = r0 < r1;
+ if cc jump .Lret_zero;
+ r2 = r1 >> 15;
+ cc = r2;
+ if cc jump .Lidents;
+ r2 = r1 << 16;
+ cc = r2 <= r0;
+ if cc jump .Lidents;
+
+ DIVS(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+ DIVQ(R0, R1);
+
+ R0 = R0.L (Z);
+ r1 = r3 >> 31; /* add overflow issue back in */
+ r0 = r0 + r1;
+ r1 = -r0;
+ cc = bittst(r3, 30);
+ if cc r0 = r1;
+ RTS;
+
+/* Can't use the primitives. Test common identities.
+** If the identity is true, return the value in R2.
+*/
+
+.Lidents:
+ CC = R1 == 0; /* check for divide by zero */
+ IF CC JUMP .Lident_return;
+
+ CC = R0 == 0; /* check for division of zero */
+ IF CC JUMP .Lzero_return;
+
+ CC = R0 == R1; /* check for identical operands */
+ IF CC JUMP .Lident_return;
+
+ CC = R1 == 1; /* check for divide by 1 */
+ IF CC JUMP .Lident_return;
+
+ R2.L = ONES R1;
+ R2 = R2.L (Z);
+ CC = R2 == 1;
+ IF CC JUMP .Lpower_of_two;
+
+ /* Identities haven't helped either.
+ ** Perform the full division process.
+ */
+
+ P1 = 31; /* Set loop counter */
+
+ [--SP] = (R7:5); /* Push registers R5-R7 */
+ R2 = -R1;
+ [--SP] = R2;
+ R2 = R0 << 1; /* R2 lsw of dividend */
+ R6 = R0 ^ R1; /* Get sign */
+ R5 = R6 >> 31; /* Shift sign to LSB */
+
+ R0 = 0 ; /* Clear msw partial remainder */
+ R2 = R2 | R5; /* Shift quotient bit */
+ R6 = R0 ^ R1; /* Get new quotient bit */
+
+ LSETUP(.Llst,.Llend) LC0 = P1; /* Setup loop */
+.Llst: R7 = R2 >> 31; /* record copy of carry from R2 */
+ R2 = R2 << 1; /* Shift 64 bit dividend up by 1 bit */
+ R0 = R0 << 1 || R5 = [SP];
+ R0 = R0 | R7; /* and add carry */
+ CC = R6 < 0; /* Check quotient(AQ) */
+ /* we might be subtracting divisor (AQ==0) */
+ IF CC R5 = R1; /* or we might be adding divisor (AQ==1)*/
+ R0 = R0 + R5; /* do add or subtract, as indicated by AQ */
+ R6 = R0 ^ R1; /* Generate next quotient bit */
+ R5 = R6 >> 31;
+ /* Assume AQ==1, shift in zero */
+ BITTGL(R5,0); /* tweak AQ to be what we want to shift in */
+.Llend: R2 = R2 + R5; /* and then set shifted-in value to
+ ** tweaked AQ.
+ */
+ r1 = r3 >> 31;
+ r2 = r2 + r1;
+ cc = bittst(r3,30);
+ r0 = -r2;
+ if !cc r0 = r2;
+ SP += 4;
+ (R7:5)= [SP++]; /* Pop registers R6-R7 */
+ RTS;
+
+.Lident_return:
+ CC = R1 == 0; /* check for divide by zero => 0x7fffffff */
+ R2 = -1 (X);
+ R2 >>= 1;
+ IF CC JUMP .Ltrue_ident_return;
+
+ CC = R0 == R1; /* check for identical operands => 1 */
+ R2 = 1 (Z);
+ IF CC JUMP .Ltrue_ident_return;
+
+ R2 = R0; /* assume divide by 1 => numerator */
+ /*FALLTHRU*/
+
+.Ltrue_ident_return:
+ R0 = R2; /* Return an identity value */
+ R2 = -R2;
+ CC = bittst(R3,30);
+ IF CC R0 = R2;
+.Lzero_return:
+ RTS; /* ...including zero */
+
+.Lpower_of_two:
+ /* Y has a single bit set, which means it's a power of two.
+ ** That means we can perform the division just by shifting
+ ** X to the right the appropriate number of bits
+ */
+
+ /* signbits returns the number of sign bits, minus one.
+ ** 1=>30, 2=>29, ..., 0x40000000=>0. Which means we need
+ ** to shift right n-signbits spaces. It also means 0x80000000
+ ** is a special case, because that *also* gives a signbits of 0
+ */
+
+ R2 = R0 >> 31;
+ CC = R1 < 0;
+ IF CC JUMP .Ltrue_ident_return;
+
+ R1.l = SIGNBITS R1;
+ R1 = R1.L (Z);
+ R1 += -30;
+ R0 = LSHIFT R0 by R1.L;
+ r1 = r3 >> 31;
+ r0 = r0 + r1;
+ R2 = -R0; // negate result if necessary
+ CC = bittst(R3,30);
+ IF CC R0 = R2;
+ RTS;
+
+.Lret_zero:
+ R0 = 0;
+ RTS;