{ This file is part of the Free Pascal run time library. Copyright (c) 1999-2001 by the Free Pascal development team Implementation of mathematical routines (for extended type) See the file COPYING.FPC, included in this distribution, for details about the copyright. 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. **********************************************************************} {**************************************************************************** FPU Control word ****************************************************************************} procedure Set8087CW(cw:word); begin { pic-safe ; cw will not be a regvar because it's accessed from } { assembler } default8087cw:=cw; asm fnclex fldcw cw end; end; function Get8087CW:word;assembler; asm pushl $0 fnstcw (%esp) popl %eax end; procedure SetSSECSR(w : dword); begin mxcsr:=w; asm ldmxcsr w end; end; function GetSSECSR : dword; var _w : dword; begin asm stmxcsr _w end; result:=_w; end; {**************************************************************************** EXTENDED data type routines ****************************************************************************} {$define FPC_SYSTEM_HAS_PI} function fpc_pi_real : ValReal;compilerproc; begin { Function is handled internal in the compiler } runerror(207); result:=0; end; {$define FPC_SYSTEM_HAS_ABS} function fpc_abs_real(d : ValReal) : ValReal;compilerproc; begin { Function is handled internal in the compiler } runerror(207); result:=0; end; {$define FPC_SYSTEM_HAS_SQR} function fpc_sqr_real(d : ValReal) : ValReal;compilerproc; begin { Function is handled internal in the compiler } runerror(207); result:=0; end; {$define FPC_SYSTEM_HAS_SQRT} function fpc_sqrt_real(d : ValReal) : ValReal;compilerproc; begin { Function is handled internal in the compiler } runerror(207); result:=0; end; {$define FPC_SYSTEM_HAS_ARCTAN} function fpc_arctan_real(d : ValReal) : ValReal;compilerproc; begin { Function is handled internal in the compiler } runerror(207); result:=0; end; {$define FPC_SYSTEM_HAS_LN} function fpc_ln_real(d : ValReal) : ValReal;compilerproc; begin { Function is handled internal in the compiler } runerror(207); result:=0; end; {$define FPC_SYSTEM_HAS_SIN} function fpc_sin_real(d : ValReal) : ValReal;compilerproc; begin { Function is handled internal in the compiler } runerror(207); result:=0; end; {$define FPC_SYSTEM_HAS_COS} function fpc_cos_real(d : ValReal) : ValReal;compilerproc; begin { Function is handled internal in the compiler } runerror(207); result:=0; end; {$define FPC_SYSTEM_HAS_EXP} function fpc_exp_real(d : ValReal) : ValReal;assembler;compilerproc; asm fldt d fldl2e fmul %st(1),%st { z = d * log2(e) } frndint { Calculate frac(z) using modular arithmetic to avoid precision loss. Avoid PIC hacks by using immediate operands (it's not the fastest, but likely the cleanest solution). } pushl $0x3fe62e42 { ln(2).hi=6.9314718036912382E-001 } pushl $0xfee00000 fldl (%esp) fmul %st(1),%st fsubrp %st,%st(2) pushl $0x3dea39ef { ln(2).lo=1.9082149292705877E-010 } pushl $0x35793c76 fldl (%esp) fmul %st(1),%st fsubrp %st,%st(2) fxch %st(1) { (d-int(z)*ln2_hi)-int(z)*ln2_lo } fldl2e fmulp %st,%st(1) { frac(z) } fld %st fabs fld1 fcompp fstsw %ax sahf jae .L1 { frac(z) <= 1 } fld %st(1) fabs pushl $0x46c00000 { single(24576.0) } fcomps (%esp) fstsw %ax sahf jb .L0 { int(z) < 24576 } fsub %st,%st jmp .L1 .L0: { Calculate 2**frac(z)-1 as N*(N+2), where N=2**(frac(z)/2)-1 } pushl $0x3f000000 { single(0.5) } fmuls (%esp) f2xm1 fld %st pushl $0x40000000 { single(2.0) } fadds (%esp) fmulp %st,%st(1) jmp .L2 .L1: f2xm1 .L2: fld1 faddp %st,%st(1) fscale fstp %st(1) end; {$define FPC_SYSTEM_HAS_FRAC} function fpc_frac_real(d : ValReal) : ValReal;assembler;compilerproc; asm subl $4,%esp fnstcw (%esp) fwait movw (%esp),%cx orw $0x0f00,(%esp) fldcw (%esp) fldt d frndint fldt d fsub %st(1),%st fstp %st(1) movw %cx,(%esp) fldcw (%esp) end; {$define FPC_SYSTEM_HAS_INT} function fpc_int_real(d : ValReal) : ValReal;assembler;compilerproc; asm subl $4,%esp fnstcw (%esp) fwait movw (%esp),%cx orw $0x0f00,(%esp) fldcw (%esp) fwait fldt d frndint fwait movw %cx,(%esp) fldcw (%esp) end; {$define FPC_SYSTEM_HAS_TRUNC} function fpc_trunc_real(d : ValReal) : int64;assembler;compilerproc; asm subl $12,%esp fldt d fnstcw (%esp) movw (%esp),%cx orw $0x0f00,(%esp) fldcw (%esp) movw %cx,(%esp) fistpq 4(%esp) fldcw (%esp) fwait movl 4(%esp),%eax movl 8(%esp),%edx end; {$define FPC_SYSTEM_HAS_ROUND} { keep for bootstrapping with 2.0.x } function fpc_round_real(d : ValReal) : int64;compilerproc;assembler; var res : int64; asm fldt d fistpq res fwait movl res,%eax movl res+4,%edx end; {$define FPC_SYSTEM_HAS_POWER} function power(bas,expo : ValReal) : ValReal; begin if bas=0 then begin if expo<>0 then power:=0.0 else HandleError(207); end else if expo=0 then power:=1 else { bas < 0 is not allowed when doing roots } if (bas<0) and (frac(expo) <> 0) then handleerror(207) else begin power:=exp(ln(abs(bas))*expo); if (bas < 0) and odd(trunc(expo)) then begin power := -power; end; end; end;