ref: 29a53a52fdc3f8fc9af3d19d0253ba33b1efccba
dir: /sys/src/libc/alpha/divl.s/
/* * ulong * _udiv(ulong num, ulong den) * { * int i; * ulong quo; * * if(den == 0) * *(ulong*)-1 = 0; * quo = num; * if(quo > 1<<(32-1)) * quo = 1<<(32-1); * for(i=0; den<quo; i++) * den <<= 1; * quo = 0; * for(; i>=0; i--) { * quo <<= 1; * if(num >= den) { * num -= den; * quo |= 1; * } * den >>= 1; * } * return quo::num; * } */ #define NOPROF 1 /* * calling sequence: * num: 8(R30) * den: 12(R30) * returns * quo: 8(R30) * rem: 12(R30) */ TEXT _udivmodl(SB), NOPROF, $-8 MOVQ $-1, R11 SLLQ $31, R11 /* (1<<31) in canonical form */ MOVL 8(R30), R23 /* numerator */ MOVL 12(R30), R10 /* denominator */ BNE R10, udm20 MOVQ R31, -1(R31) /* fault -- divide by zero; todo: use gentrap? */ udm20: MOVQ R23, R12 BGE R12, udm34 MOVQ R11, R12 udm34: MOVQ R31, R11 udm38: CMPUGE R10, R12, R24 BNE R24, udm54 SLLL $1, R10 ADDQ $1, R11 JMP udm38 udm54: MOVQ R31, R12 udm58: BLT R11, udm8c SLLL $1, R12 CMPUGE R23, R10, R24 BEQ R24, udm7c SUBL R10, R23 OR $1, R12 udm7c: SRLL $1, R10 SUBQ $1, R11 JMP udm58 udm8c: MOVL R12, 8(R30) /* quotient */ MOVL R23, 12(R30) /* remainder */ RET /* * save working registers * and bring in num/den parameters */ TEXT _unsargl(SB), NOPROF, $-8 MOVQ R10, 24(R30) MOVQ R11, 32(R30) MOVQ R12, 40(R30) MOVQ R23, 48(R30) MOVQ R24, 56(R30) MOVL R27, 8(R30) MOVL 72(R30), R27 MOVL R27, 12(R30) RET /* * save working registers * and bring in absolute value * of num/den parameters */ TEXT _absargl(SB), NOPROF, $-8 MOVQ R10, 24(R30) MOVQ R11, 32(R30) MOVQ R12, 40(R30) MOVQ R23, 48(R30) MOVQ R24, 56(R30) MOVL R27, 64(R30) BGE R27, ab1 SUBL R27, R31, R27 ab1: MOVL R27, 8(R30) /* numerator */ MOVL 72(R30), R27 BGE R27, ab2 SUBL R27, R31, R27 ab2: MOVL R27, 12(R30) /* denominator */ RET /* * restore registers and * return to original caller * answer is in R27 */ TEXT _retargl(SB), NOPROF, $-8 MOVQ 24(R30), R10 MOVQ 32(R30), R11 MOVQ 40(R30), R12 MOVQ 48(R30), R23 MOVQ 56(R30), R24 MOVL 0(R30), R26 ADDQ $64, R30 RET /* back to main sequence */ TEXT _divl(SB), NOPROF, $-8 SUBQ $64, R30 /* 5 reg save, 2 parameters, link */ MOVL R26, 0(R30) JSR _absargl(SB) JSR _udivmodl(SB) MOVL 8(R30), R27 MOVL 64(R30), R10 /* clean up the sign */ MOVL 72(R30), R11 XOR R11, R10 BGE R10, div1 SUBL R27, R31, R27 div1: JSR _retargl(SB) RET /* not executed */ TEXT _divlu(SB), NOPROF, $-8 SUBQ $64, R30 /* 5 reg save, 2 parameters, link */ MOVL R26, 0(R30) JSR _unsargl(SB) JSR _udivmodl(SB) MOVL 8(R30), R27 JSR _retargl(SB) RET /* not executed */ TEXT _modl(SB), NOPROF, $-8 SUBQ $64, R30 /* 5 reg save, 2 parameters, link */ MOVL R26, 0(R30) JSR _absargl(SB) JSR _udivmodl(SB) MOVL 12(R30), R27 MOVL 64(R30), R10 /* clean up the sign */ BGE R10, div2 SUBL R27, R31, R27 div2: JSR _retargl(SB) RET /* not executed */ TEXT _modlu(SB), NOPROF, $-8 SUBQ $64, R30 /* 5 reg save, 2 parameters, link */ MOVL R26, 0(R30) JSR _unsargl(SB) JSR _udivmodl(SB) MOVL 12(R30), R27 JSR _retargl(SB) RET /* not executed */