;; ======================================================================== ;; ;; DIVI Divide two signed integers / fixed-pt numbers ;; ;; DIVI.1 Alternate entry point: denominator in register ;; ;; DIVI.2 Alternate entry point: all parameters in registers ;; ;; DIVU Divide two unsigned integers / fixed-pt numbers ;; ;; DIVU.1 Alternate entry point: denominator in register ;; ;; DIVU.2 Alternate entry point: all parameters in registers ;; ;; ;; ;; AUTHOR ;; ;; Joseph Zbiciak ;; ;; ;; ;; REVISION HISTORY ;; ;; 25-Sep-2001 Initial Revision ;; ;; 27-Sep-2001 Rewrote normalization, shaving ~150 cycles. ;; ;; ;; ;; INPUTS for DIVI, DIVU ;; ;; R0 Numerator ;; ;; R5 Pointer to invocation record, followed by return address. ;; ;; Denominator 1 DECLE ;; ;; Fractional point 1 DECLE ;; ;; ;; ;; INPUTS for DIVI.1, DIVU.1 ;; ;; R0 Numerator ;; ;; R1 Denominator ;; ;; R5 Pointer to invocation record, followed by return address. ;; ;; Fractional point 1 DECLE ;; ;; ;; ;; INPUTS for DIVI.2, DIVU.2 ;; ;; R0 Numerator ;; ;; R1 Denominator ;; ;; R2 Fraction ;; ;; R5 Return address ;; ;; ;; ;; OUTPUTS ;; ;; R0 Remainder, left-shifted ;; ;; R1 Clobbered ;; ;; R2 Clobbered ;; ;; R3 Quotient ;; ;; R4 Unmodified ;; ;; R5 Return address ;; ;; ;; ;; NOTES ;; ;; The remainder returned in R0 isn't directly usable. This code ;; ;; can be modified to return a proper remainder by recording the ;; ;; number of left-shifts applied to the denominator in the norm ;; ;; loop, and applying that number of right-shifts to the remainder. ;; ;; Storing R2 after the normalization loop works for integer ;; ;; division (fractional point == 0) only. ;; ;; ;; ;; This code can perform fixed-point divide between two fixed point ;; ;; numbers, yielding a fixed-point result. Given the numerator's ;; ;; fractional point X, the denominator's fractional point Y, and ;; ;; the desired fractional point Z, the required argument F for ;; ;; this divide is: F = Z + Y - X. ;; ;; ;; ;; This divide rounds towards zero. In other words, for signed ;; ;; division, both -1/2 == 0 and 1/2 == 0. For unsigned division, ;; ;; all remainders are rounded down. ;; ;; ;; ;; TECHNIQUES ;; ;; Left-shifting method on numerator allows calculating fractional ;; ;; quotients as well as integer quotients. ;; ;; ;; ;; Negative numerators and denominators are handled by making both ;; ;; numerator and denominator positive up-front, and then negating ;; ;; the result if necessary. (This step is obviously omitted in the ;; ;; case of an unsigned divide.) ;; ;; ;; ;; CODESIZE ;; ;; 72 words. ;; ;; ;; ;; 6 words may be shaved by omitting DIVU. ;; ;; 20 words may be shaved by omitting DIVI. ;; ;; ;; ;; CYCLES ;; ;; Worst case analysis: ;; ;; ;; ;; For DIVI, cycles = 601 + 53*k, where k is # of quotient bits. ;; ;; For DIVU, cycles = 552 + 53*k, where k is # of quotient bits. ;; ;; The number of quotient bits 'k' is given by this equation: ;; ;; ;; ;; k = ceil(log2(num)) - floor(log2(den)) + fractional_bits. ;; ;; ;; ;; Subtract 8 cycles for DIVI.1 or DIVU.1. ;; ;; Subtract 16 cycles for DIVI.2 or DIVU.2. ;; ;; ;; ;; A worst-case divide with 16 quotient bits that are all 1s should ;; ;; take no more than 1448 cycles. (The actual cycle count will ;; ;; depend on the relative magnitude of the numbers being divided.) ;; ;; ;; ;; LICENSE ;; ;; GNU General Public License, Version 2.0: ;; ;; ;; ;; 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, write to the Free Software ;; ;; Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. ;; ;; ------------------------------------------------------------------------ ;; ;; Copyright (c) 2002, Joseph Zbiciak ;; ;; ======================================================================== ;; DIVU PROC MVI@ R5, R1 ; 8 Denominator @@1: MVI@ R5, R2 ; 8 Fractional point @@2: ; Alt. entry: All args in regs CLRR R3 ; 6 Start w/ quotient == 0. PSHR R3 ; 9 Sign of result == positive B DIVI.norm ; 9 Reuse divi code for divide ;====== ; 40 ENDP DIVI PROC MVI@ R5, R1 ; 8 Denominator @@1: MVI@ R5, R2 ; 8 Fractional point @@2: ; Alt. entry: All args in regs CLRR R3 ; 6 Start w/ quotient == 0. ;; ------------------------------------------------------------ ;; ;; Record sign of result, and make num, den positive. ;; ;; ------------------------------------------------------------ ;; XORR R1, R0 ; 6 \ PSHR R0 ; 9 |-- Record sign of result XORR R1, R0 ; 6 / on the stack. TSTR R0 ; 6 \ BEQ @@zero ; 7/9 |__ Make numerator positive BPL @@npos ; 7/9 | NEGR R0 ; 6 / @@npos: TSTR R1 ; 6 \ BEQ @@zero ; 7/9 |__ Make denominator positive BPL @@dpos ; 7/9 | NEGR R1 ; 6 / @@dpos: ;------ ; 95 (worst case: both negative) ; 87 (typical: both positive) ; 58 (best case: numerator zero) ;====== ; 95 (worst case: both negative) ;; ------------------------------------------------------------ ;; ;; Normalize the divisor relative to the dividend. We want ;; ;; to shift the denominator left as far as we can without ;; ;; making it larger than the numerator. We achieve this by ;; ;; shifting it one position too far, then backing off. ;; ;; ------------------------------------------------------------ ;; @@norm: TSTR R1 ; 6 Is bit 15 of denominator set? BMI @@norm3 ; 7/9 Yes: Do very special norm. TSTR R0 ; 6 Is bit 15 of numerator set? BPL @@norm1 ; 9/7 If not, do general normalize. ; Otherwise, do special normalize. @@norm2: INCR R2 ; 6 \ SLLC R1, 1 ; 6 |-- Special normalize: Shift BNC @@norm2 ; 9/7 / until bit falls off top. ;------ ; 21*k - 2 B @@over ; 9 ; 26 ;------ ; 21*k + 20 ;====== Assume max K of 16 ; 369 (worst case) @@norm1: INCR R2 ; 6 \ SLL R1, 1 ; 6 |-- General normalize: Shift CMPR R1, R0 ; 6 / until denom > numer. BC @@norm1 ; 9/7 ;------ ; 27*k - 2 ; 28 ;====== Assume max K of 15 ; 431 (worst case) @@over: RRC R1, 1 ; 6 Back off by one. INCR PC ; 6 Skip INCR below @@norm3: INCR R2 ; 6 Very special norm... CMPR R3, R2 ; 6 Is our divide loop iter count ; at least 1? (Note R3==0) BLE @@zero ; 7/9 NO: Return zero. B @@div1st ; 9 Do first iter of divide ;------ ; 34 (worst case) ; 95 (worst case) ; 431 (worst case) ;====== ; 560 (worst case) ;; ------------------------------------------------------------ ;; ;; Perform the divide. We iteratively subtract off our ;; ;; divisor from the dividend *IF* the dividend is greater or ;; ;; or equal to the divisor, and set the corresponding bit in ;; ;; the quotient. If the dividend is smaller than the divisor, ;; ;; we clear the corresponding quotient bit. Next, we left- ;; ;; shift the dividend and calculate the next quotient bit. ;; ;; ------------------------------------------------------------ ;; @@div: SLLC R0, 1 ; 6 Shift numerator left 1 BC @@b1 ; 7/9 If overflow, force bit 1. @@div1st: CMPR R1, R0 ; 6 Is numerator >= denominator ? BNC @@b0 ; 7/9 NO: Quotient bit is 0 @@b1: RLC R3, 1 ; 6 YES: Quotient bit is 1 SUBR R1, R0 ; 6 DECR R2 ; 6 BNEQ @@div ; 9/7 Iterate for all quotient bits ;------ ; 53*k - 2 B @@divdone ; 9 ;------ ; 53*k + 7 @@b0: SLL R3, 1 ; 6 NO: Quotient bit is 0 DECR R2 ; 6 BNEQ @@div ; 9/7 Iterate for all quotient bits ;------ ; 49*k - 2 ;====== ; 567 + 53*k worst case. @@divdone: ;; ------------------------------------------------------------ ;; ;; Now apply the sign to the result. The sign is in the MSB ;; ;; of the word we saved earlier on the stack. For unsigned ;; ;; divides, the value saved on the stack is zero. ;; ;; ------------------------------------------------------------ ;; @@zero: PULR R1 ; 8 TSTR R1 ; 6 BPL @@qpos ; 7/9 NEGR R3 ; 6 @@qpos: ;------ ; 27 (worst case) ; 567 + 53*k (worst case) ;====== ; 594 + 53*k (worst case) @@done: JR R5 ; 7 Return. R3 = R0 / R1 ;====== ; 601 + 53*k (worst case) ENDP ;; ======================================================================== ;; ;; End of File: dividivu.asm ;; ;; ======================================================================== ;;