Plan 9 from Bell Labs’s /usr/web/sources/contrib/fernan/nhc98/src/prelude/Prelude/RealFloat_Float.p.c

Copyright © 2021 Plan 9 Foundation.
Distributed under the MIT License.
Download the Plan 9 distribution.


#include "newmacros.h"
#include "runtime.h"

#define FN_Prelude_46cFIsNeg	((void*)startLabel+8)
#define CT_v331	((void*)startLabel+32)
#define F0_Prelude_46cFIsNeg	((void*)startLabel+40)
#define FN_Prelude_46cFIsNormal	((void*)startLabel+68)
#define CT_v334	((void*)startLabel+92)
#define F0_Prelude_46cFIsNormal	((void*)startLabel+100)
#define FN_Prelude_46cFIsFinite	((void*)startLabel+128)
#define CT_v337	((void*)startLabel+152)
#define F0_Prelude_46cFIsFinite	((void*)startLabel+160)
#define FN_Prelude_46cFIsNaN	((void*)startLabel+188)
#define CT_v340	((void*)startLabel+212)
#define F0_Prelude_46cFIsNaN	((void*)startLabel+220)
#define CT_v344	((void*)startLabel+312)
#define CT_v350	((void*)startLabel+484)
#define CT_v355	((void*)startLabel+608)
#define CT_v360	((void*)startLabel+728)
#define CT_v364	((void*)startLabel+824)
#define CT_v368	((void*)startLabel+920)
#define CT_v372	((void*)startLabel+1012)
#define CT_v376	((void*)startLabel+1144)
#define CT_v379	((void*)startLabel+1200)
#define CT_v382	((void*)startLabel+1280)
#define CT_v386	((void*)startLabel+1372)
#define CT_v390	((void*)startLabel+1472)
#define CT_v394	((void*)startLabel+1568)
#define CT_v398	((void*)startLabel+1664)
#define CT_v402	((void*)startLabel+1804)
#define ST_v400	((void*)startLabel+1896)
#define ST_v384	((void*)startLabel+1928)
#define ST_v370	((void*)startLabel+1968)
#define ST_v366	((void*)startLabel+2012)
#define ST_v396	((void*)startLabel+2056)
#define ST_v378	((void*)startLabel+2100)
#define ST_v381	((void*)startLabel+2144)
#define ST_v374	((void*)startLabel+2188)
#define ST_v352	((void*)startLabel+2232)
#define ST_v342	((void*)startLabel+2280)
#define ST_v357	((void*)startLabel+2320)
#define ST_v362	((void*)startLabel+2364)
#define ST_v346	((void*)startLabel+2404)
#define ST_v388	((void*)startLabel+2452)
#define ST_v392	((void*)startLabel+2496)
#define PP_Prelude_46cFIsFinite	((void*)startLabel+2540)
#define PC_Prelude_46cFIsFinite	((void*)startLabel+2540)
#define ST_v336	((void*)startLabel+2540)
#define PP_Prelude_46cFIsNaN	((void*)startLabel+2559)
#define PC_Prelude_46cFIsNaN	((void*)startLabel+2559)
#define ST_v339	((void*)startLabel+2559)
#define PP_Prelude_46cFIsNeg	((void*)startLabel+2575)
#define PC_Prelude_46cFIsNeg	((void*)startLabel+2575)
#define ST_v330	((void*)startLabel+2575)
#define PP_Prelude_46cFIsNormal	((void*)startLabel+2591)
#define PC_Prelude_46cFIsNormal	((void*)startLabel+2591)
#define ST_v333	((void*)startLabel+2591)
#define PS_v338	((void*)startLabel+2612)
#define PS_v335	((void*)startLabel+2624)
#define PS_v332	((void*)startLabel+2636)
#define PS_v329	((void*)startLabel+2648)
#define PS_v380	((void*)startLabel+2660)
#define PS_v377	((void*)startLabel+2672)
#define PS_v375	((void*)startLabel+2684)
#define PS_v373	((void*)startLabel+2696)
#define PS_v371	((void*)startLabel+2708)
#define PS_v369	((void*)startLabel+2720)
#define PS_v367	((void*)startLabel+2732)
#define PS_v365	((void*)startLabel+2744)
#define PS_v363	((void*)startLabel+2756)
#define PS_v361	((void*)startLabel+2768)
#define PS_v359	((void*)startLabel+2780)
#define PS_v358	((void*)startLabel+2792)
#define PS_v356	((void*)startLabel+2804)
#define PS_v354	((void*)startLabel+2816)
#define PS_v353	((void*)startLabel+2828)
#define PS_v351	((void*)startLabel+2840)
#define PS_v349	((void*)startLabel+2852)
#define PS_v347	((void*)startLabel+2864)
#define PS_v345	((void*)startLabel+2876)
#define PS_v348	((void*)startLabel+2888)
#define PS_v343	((void*)startLabel+2900)
#define PS_v341	((void*)startLabel+2912)
#define PS_v397	((void*)startLabel+2924)
#define PS_v395	((void*)startLabel+2936)
#define PS_v393	((void*)startLabel+2948)
#define PS_v391	((void*)startLabel+2960)
#define PS_v389	((void*)startLabel+2972)
#define PS_v387	((void*)startLabel+2984)
#define PS_v385	((void*)startLabel+2996)
#define PS_v383	((void*)startLabel+3008)
#define PS_v399	((void*)startLabel+3020)
#define PS_v401	((void*)startLabel+3032)
void FR_Prelude_46cFIsNeg(void);
void FR_Prelude_46cFIsNormal(void);
void FR_Prelude_46cFIsFinite(void);
void FR_Prelude_46cFIsNaN(void);
extern Node FN_Prelude_46Eq_46Prelude_46Float_46_61_61[];
extern Node FN_Prelude_46_38_38[];
extern Node FN_Prelude_46not[];
extern Node FN_Prelude_46primEncodeFloat[];
extern Node FN_Prelude_46primDecodeFloat[];
extern Node FN_Prelude_46_95_46atan2[];
extern Node CF_Prelude_46RealFloat_46Prelude_46Float[];
extern Node FN_Prelude_46_95_46scaleFloat[];
extern Node FN_Prelude_46_95_46significand[];
extern Node FN_Prelude_46_95_46exponent[];
extern Node CF_Prelude_46RealFrac_46Prelude_46Float[];
extern Node CF_Prelude_46Floating_46Prelude_46Float[];
extern Node PM_Prelude[];
extern Node PC_Prelude_462[];
extern Node PC_Prelude_46primDecodeFloat[];
extern Node PC_Prelude_46primEncodeFloat[];
extern Node PC_Prelude_46not[];
extern Node PC_Prelude_46_38_38[];
extern Node PC_Prelude_46Eq_46Prelude_46Float_46_61_61[];
extern Node PC_Prelude_46True[];
extern Node PC_Prelude_46_95_46exponent[];
extern Node PC_Prelude_46_95_46significand[];
extern Node PC_Prelude_46_95_46scaleFloat[];
extern Node PC_Prelude_46_95_46atan2[];
extern Node PC_Prelude_4616[];

static Node startLabel[] = {
  bytes2word(1,0,0,1)
, useLabel(CT_v331)
,	/* FN_Prelude_46cFIsNeg: (byte 0) */
  bytes2word(PUSH_ARG_I1,EVAL,POP_I1,PRIMITIVE)
, useLabel(FR_Prelude_46cFIsNeg)
, bytes2word(RETURN_EVAL,ENDCODE,0,0)
, bytes2word(0,0,0,0)
, 260001
, useLabel(ST_v330)
,	/* CT_v331: (byte 0) */
  HW(0,1)
, 0
,	/* F0_Prelude_46cFIsNeg: (byte 0) */
  CAPTAG(useLabel(FN_Prelude_46cFIsNeg),1)
, useLabel(PS_v329)
, 0
, 0
, 0
, bytes2word(1,0,0,1)
, useLabel(CT_v334)
,	/* FN_Prelude_46cFIsNormal: (byte 0) */
  bytes2word(PUSH_ARG_I1,EVAL,POP_I1,PRIMITIVE)
, useLabel(FR_Prelude_46cFIsNormal)
, bytes2word(RETURN_EVAL,ENDCODE,0,0)
, bytes2word(0,0,0,0)
, 250001
, useLabel(ST_v333)
,	/* CT_v334: (byte 0) */
  HW(0,1)
, 0
,	/* F0_Prelude_46cFIsNormal: (byte 0) */
  CAPTAG(useLabel(FN_Prelude_46cFIsNormal),1)
, useLabel(PS_v332)
, 0
, 0
, 0
, bytes2word(1,0,0,1)
, useLabel(CT_v337)
,	/* FN_Prelude_46cFIsFinite: (byte 0) */
  bytes2word(PUSH_ARG_I1,EVAL,POP_I1,PRIMITIVE)
, useLabel(FR_Prelude_46cFIsFinite)
, bytes2word(RETURN_EVAL,ENDCODE,0,0)
, bytes2word(0,0,0,0)
, 240001
, useLabel(ST_v336)
,	/* CT_v337: (byte 0) */
  HW(0,1)
, 0
,	/* F0_Prelude_46cFIsFinite: (byte 0) */
  CAPTAG(useLabel(FN_Prelude_46cFIsFinite),1)
, useLabel(PS_v335)
, 0
, 0
, 0
, bytes2word(1,0,0,1)
, useLabel(CT_v340)
,	/* FN_Prelude_46cFIsNaN: (byte 0) */
  bytes2word(PUSH_ARG_I1,EVAL,POP_I1,PRIMITIVE)
, useLabel(FR_Prelude_46cFIsNaN)
, bytes2word(RETURN_EVAL,ENDCODE,0,0)
, bytes2word(0,0,0,0)
, 230001
, useLabel(ST_v339)
,	/* CT_v340: (byte 0) */
  HW(0,1)
, 0
,	/* F0_Prelude_46cFIsNaN: (byte 0) */
  CAPTAG(useLabel(FN_Prelude_46cFIsNaN),1)
, useLabel(PS_v338)
, 0
, 0
, 0
, bytes2word(1,0,0,1)
, useLabel(CT_v344)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46isIEEE[] = {
  bytes2word(ZAP_ARG_I1,NEEDHEAP_I32,PUSH_HEAP,HEAP_CVAL_N1)
, bytes2word(7,HEAP_CVAL_N1,12,HEAP_CREATE)
, bytes2word(HEAP_SPACE,HEAP_SPACE,RETURN,ENDCODE)
, bytes2word(0,0,0,0)
, useLabel(PS_v343)
, 0
, 0
, 0
, 0
, CONSTR(1,0,0)
, 0
, 0
, 0
, 0
, 210005
, useLabel(ST_v342)
,	/* CT_v344: (byte 0) */
  HW(0,1)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46isIEEE[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46isIEEE),1)
, useLabel(PS_v341)
, 0
, 0
, 0
, bytes2word(1,0,0,1)
, useLabel(CT_v350)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46isNegativeZero[] = {
  bytes2word(NEEDHEAP_I32,HEAP_CVAL_P1,7,HEAP_CVAL_N1)
, bytes2word(7,HEAP_CREATE,HEAP_SPACE,HEAP_SPACE)
, bytes2word(HEAP_ARG,1,HEAP_CVAL_P1,8)
, bytes2word(HEAP_CVAL_N1,12,HEAP_CREATE,HEAP_SPACE)
, bytes2word(HEAP_SPACE,HEAP_ARG,1,HEAP_CADR_N1)
, bytes2word(18,PUSH_HEAP,HEAP_CVAL_P1,9)
, bytes2word(HEAP_CVAL_N1,23,HEAP_CREATE,HEAP_SPACE)
, bytes2word(HEAP_SPACE,HEAP_OFF_N1,18,HEAP_OFF_N1)
, bytes2word(13,RETURN_EVAL,ENDCODE,0)
, bytes2word(0,0,0,0)
, 0
, useLabel(PS_v349)
, 0
, 0
, 0
, 0
, CONSTRW(1,0)
, 0
, 0
, 0
, 0
, 0
, useLabel(PS_v348)
, 0
, 0
, 0
, 0
, useLabel(PS_v347)
, 0
, 0
, 0
, 0
, 200005
, useLabel(ST_v346)
,	/* CT_v350: (byte 0) */
  HW(3,1)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46isNegativeZero[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46isNegativeZero),1)
, useLabel(PS_v345)
, 0
, 0
, 0
, VAPTAG(useLabel(FN_Prelude_46cFIsNeg))
, VAPTAG(useLabel(FN_Prelude_46Eq_46Prelude_46Float_46_61_61))
, VAPTAG(useLabel(FN_Prelude_46_38_38))
, bytes2word(1,0,0,1)
, useLabel(CT_v355)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46isDenormalized[] = {
  bytes2word(NEEDHEAP_I32,HEAP_CVAL_P1,7,HEAP_CVAL_N1)
, bytes2word(7,HEAP_CREATE,HEAP_SPACE,HEAP_SPACE)
, bytes2word(HEAP_ARG,1,PUSH_HEAP,HEAP_CVAL_P1)
, bytes2word(8,HEAP_CVAL_N1,12,HEAP_CREATE)
, bytes2word(HEAP_SPACE,HEAP_SPACE,HEAP_OFF_N1,11)
, bytes2word(RETURN_EVAL,ENDCODE,0,0)
, bytes2word(0,0,0,0)
, useLabel(PS_v354)
, 0
, 0
, 0
, 0
, useLabel(PS_v353)
, 0
, 0
, 0
, 0
, 190005
, useLabel(ST_v352)
,	/* CT_v355: (byte 0) */
  HW(2,1)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46isDenormalized[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46isDenormalized),1)
, useLabel(PS_v351)
, 0
, 0
, 0
, VAPTAG(useLabel(FN_Prelude_46cFIsNormal))
, VAPTAG(useLabel(FN_Prelude_46not))
, bytes2word(1,0,0,1)
, useLabel(CT_v360)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46isInfinite[] = {
  bytes2word(NEEDHEAP_I32,HEAP_CVAL_P1,7,HEAP_CVAL_N1)
, bytes2word(7,HEAP_CREATE,HEAP_SPACE,HEAP_SPACE)
, bytes2word(HEAP_ARG,1,PUSH_HEAP,HEAP_CVAL_P1)
, bytes2word(8,HEAP_CVAL_N1,12,HEAP_CREATE)
, bytes2word(HEAP_SPACE,HEAP_SPACE,HEAP_OFF_N1,11)
, bytes2word(RETURN_EVAL,ENDCODE,0,0)
, bytes2word(0,0,0,0)
, useLabel(PS_v359)
, 0
, 0
, 0
, 0
, useLabel(PS_v358)
, 0
, 0
, 0
, 0
, 180005
, useLabel(ST_v357)
,	/* CT_v360: (byte 0) */
  HW(2,1)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46isInfinite[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46isInfinite),1)
, useLabel(PS_v356)
, 0
, 0
, 0
, VAPTAG(useLabel(FN_Prelude_46cFIsFinite))
, VAPTAG(useLabel(FN_Prelude_46not))
, bytes2word(1,0,0,1)
, useLabel(CT_v364)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46isNaN[] = {
  bytes2word(NEEDHEAP_I32,PUSH_HEAP,HEAP_CVAL_P1,7)
, bytes2word(HEAP_CVAL_N1,7,HEAP_CREATE,HEAP_SPACE)
, bytes2word(HEAP_SPACE,HEAP_ARG,1,RETURN_EVAL)
, bytes2word(ENDCODE,0,0,0)
, bytes2word(0,0,0,0)
, 0
, useLabel(PS_v363)
, 0
, 0
, 0
, 0
, 170005
, useLabel(ST_v362)
,	/* CT_v364: (byte 0) */
  HW(1,1)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46isNaN[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46isNaN),1)
, useLabel(PS_v361)
, 0
, 0
, 0
, VAPTAG(useLabel(FN_Prelude_46cFIsNaN))
, bytes2word(0,0,2,0)
, bytes2word(1,1,0,2)
, useLabel(CT_v368)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46encodeFloat[] = {
  bytes2word(NEEDHEAP_I32,PUSH_HEAP,HEAP_CVAL_P1,7)
, bytes2word(HEAP_CVAL_N1,7,HEAP_CREATE,HEAP_SPACE)
, bytes2word(HEAP_SPACE,HEAP_ARG_ARG_RET_EVAL,1,2)
, bytes2word(ENDCODE,0,0,0)
, bytes2word(0,0,0,0)
, 0
, useLabel(PS_v367)
, 0
, 0
, 0
, 0
, 140005
, useLabel(ST_v366)
,	/* CT_v368: (byte 0) */
  HW(1,2)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46encodeFloat[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46encodeFloat),2)
, useLabel(PS_v365)
, 0
, 0
, 0
, VAPTAG(useLabel(FN_Prelude_46primEncodeFloat))
, bytes2word(1,0,0,1)
, useLabel(CT_v372)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46decodeFloat[] = {
  bytes2word(NEEDHEAP_I32,PUSH_HEAP,HEAP_CVAL_P1,7)
, bytes2word(HEAP_CVAL_N1,7,HEAP_CREATE,HEAP_SPACE)
, bytes2word(HEAP_SPACE,HEAP_ARG,1,RETURN_EVAL)
, bytes2word(ENDCODE,0,0,0)
, bytes2word(0,0,0,0)
, 0
, useLabel(PS_v371)
, 0
, 0
, 0
, 0
, 130005
, useLabel(ST_v370)
,	/* CT_v372: (byte 0) */
  HW(1,1)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46decodeFloat[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46decodeFloat),1)
, useLabel(PS_v369)
, 0
, 0
, 0
, VAPTAG(useLabel(FN_Prelude_46primDecodeFloat))
, bytes2word(1,0,0,1)
, useLabel(CT_v376)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46floatRange[] = {
  bytes2word(ZAP_ARG_I1,NEEDHEAP_I32,PUSH_HEAP,HEAP_CVAL_N1)
, bytes2word(7,HEAP_CVAL_N1,12,HEAP_CREATE)
, bytes2word(HEAP_SPACE,HEAP_SPACE,HEAP_CADR_N1,18)
, bytes2word(HEAP_INT_P1,128,RETURN,ENDCODE)
, bytes2word(0,0,0,0)
, CONSTRW(1,0)
, 0
, 0
, 0
, 0
, -148
, useLabel(PS_v375)
, 0
, 0
, 0
, 0
, CONSTR(0,2,0)
, 0
, 0
, 0
, 0
, 120005
, useLabel(ST_v374)
,	/* CT_v376: (byte 0) */
  HW(0,1)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46floatRange[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46floatRange),1)
, useLabel(PS_v373)
, 0
, 0
, 0
, bytes2word(1,0,0,1)
, useLabel(CT_v379)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46floatDigits[] = {
  bytes2word(ZAP_ARG_I1,NEEDSTACK_I16,PUSH_INT_P1,24)
, bytes2word(RETURN,ENDCODE,0,0)
, bytes2word(0,0,0,0)
, 110005
, useLabel(ST_v378)
,	/* CT_v379: (byte 0) */
  HW(0,1)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46floatDigits[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46floatDigits),1)
, useLabel(PS_v377)
, 0
, 0
, 0
, bytes2word(1,0,0,1)
, useLabel(CT_v382)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46floatRadix[] = {
  bytes2word(ZAP_ARG_I1,NEEDSTACK_I16,PUSH_CADR_N1,8)
, bytes2word(RETURN,ENDCODE,0,0)
, bytes2word(0,0,0,0)
, CONSTRW(1,0)
, 0
, 0
, 0
, 0
, 2
, 100005
, useLabel(ST_v381)
,	/* CT_v382: (byte 0) */
  HW(0,1)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46floatRadix[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46floatRadix),1)
, useLabel(PS_v380)
, 0
, 0
, 0
, bytes2word(0,0,2,0)
, bytes2word(1,1,0,2)
, useLabel(CT_v386)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46atan2[] = {
  bytes2word(NEEDHEAP_I32,PUSH_HEAP,HEAP_CVAL_P1,7)
, bytes2word(HEAP_CVAL_N1,7,HEAP_CREATE,HEAP_SPACE)
, bytes2word(HEAP_SPACE,HEAP_CVAL_P1,8,HEAP_ARG_ARG_RET_EVAL)
, bytes2word(1,2,ENDCODE,0)
, bytes2word(0,0,0,0)
, 0
, useLabel(PS_v385)
, 0
, 0
, 0
, 0
, 90011
, useLabel(ST_v384)
,	/* CT_v386: (byte 0) */
  HW(2,2)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46atan2[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46atan2),2)
, useLabel(PS_v383)
, 0
, 0
, 0
, VAPTAG(useLabel(FN_Prelude_46_95_46atan2))
, useLabel(CF_Prelude_46RealFloat_46Prelude_46Float)
, bytes2word(0,0,2,0)
, bytes2word(1,1,0,2)
, useLabel(CT_v390)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46scaleFloat[] = {
  bytes2word(NEEDHEAP_I32,PUSH_HEAP,HEAP_CVAL_P1,7)
, bytes2word(HEAP_CVAL_N1,7,HEAP_CREATE,HEAP_SPACE)
, bytes2word(HEAP_SPACE,HEAP_CVAL_P1,8,HEAP_ARG_ARG_RET_EVAL)
, bytes2word(1,2,ENDCODE,0)
, bytes2word(0,0,0,0)
, 0
, useLabel(PS_v389)
, 0
, 0
, 0
, 0
, 90011
, useLabel(ST_v388)
,	/* CT_v390: (byte 0) */
  HW(2,2)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46scaleFloat[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46scaleFloat),2)
, useLabel(PS_v387)
, 0
, 0
, 0
, VAPTAG(useLabel(FN_Prelude_46_95_46scaleFloat))
, useLabel(CF_Prelude_46RealFloat_46Prelude_46Float)
, bytes2word(1,0,0,1)
, useLabel(CT_v394)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46significand[] = {
  bytes2word(NEEDHEAP_I32,PUSH_HEAP,HEAP_CVAL_P1,7)
, bytes2word(HEAP_CVAL_N1,7,HEAP_CREATE,HEAP_SPACE)
, bytes2word(HEAP_SPACE,HEAP_CVAL_P1,8,HEAP_ARG)
, bytes2word(1,RETURN_EVAL,ENDCODE,0)
, bytes2word(0,0,0,0)
, 0
, useLabel(PS_v393)
, 0
, 0
, 0
, 0
, 90011
, useLabel(ST_v392)
,	/* CT_v394: (byte 0) */
  HW(2,1)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46significand[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46significand),1)
, useLabel(PS_v391)
, 0
, 0
, 0
, VAPTAG(useLabel(FN_Prelude_46_95_46significand))
, useLabel(CF_Prelude_46RealFloat_46Prelude_46Float)
, bytes2word(1,0,0,1)
, useLabel(CT_v398)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float_46exponent[] = {
  bytes2word(NEEDHEAP_I32,PUSH_HEAP,HEAP_CVAL_P1,7)
, bytes2word(HEAP_CVAL_N1,7,HEAP_CREATE,HEAP_SPACE)
, bytes2word(HEAP_SPACE,HEAP_CVAL_P1,8,HEAP_ARG)
, bytes2word(1,RETURN_EVAL,ENDCODE,0)
, bytes2word(0,0,0,0)
, 0
, useLabel(PS_v397)
, 0
, 0
, 0
, 0
, 90011
, useLabel(ST_v396)
,	/* CT_v398: (byte 0) */
  HW(2,1)
, 0
,};
Node F0_Prelude_46RealFloat_46Prelude_46Float_46exponent[] = {
  CAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float_46exponent),1)
, useLabel(PS_v395)
, 0
, 0
, 0
, VAPTAG(useLabel(FN_Prelude_46_95_46exponent))
, useLabel(CF_Prelude_46RealFloat_46Prelude_46Float)
, bytes2word(0,0,0,0)
, useLabel(CT_v402)
,};
Node FN_Prelude_46RealFloat_46Prelude_46Float[] = {
  bytes2word(NEEDHEAP_I32,PUSH_HEAP,HEAP_CVAL_N1,7)
, bytes2word(HEAP_CVAL_N1,12,HEAP_CREATE,HEAP_SPACE)
, bytes2word(HEAP_SPACE,HEAP_CVAL_P1,7,HEAP_CVAL_P1)
, bytes2word(8,HEAP_CVAL_P1,9,HEAP_CVAL_P1)
, bytes2word(10,HEAP_CVAL_P1,11,HEAP_CVAL_P1)
, bytes2word(12,HEAP_CVAL_P1,13,HEAP_CVAL_P1)
, bytes2word(14,HEAP_CVAL_P1,15,HEAP_CVAL_P1)
, bytes2word(16,HEAP_CVAL_P1,17,HEAP_CVAL_P1)
, bytes2word(18,HEAP_CVAL_P1,19,HEAP_CVAL_P1)
, bytes2word(20,HEAP_CVAL_P1,21,HEAP_CVAL_P1)
, bytes2word(22,RETURN,ENDCODE,0)
, bytes2word(0,0,0,0)
, useLabel(PS_v401)
, 0
, 0
, 0
, 0
, CONSTR(0,16,0)
, 0
, 0
, 0
, 0
, 90011
, useLabel(ST_v400)
,	/* CT_v402: (byte 0) */
  HW(16,0)
, 0
,};
Node CF_Prelude_46RealFloat_46Prelude_46Float[] = {
  VAPTAG(useLabel(FN_Prelude_46RealFloat_46Prelude_46Float))
, useLabel(PS_v399)
, 0
, 0
, 0
, useLabel(CF_Prelude_46RealFrac_46Prelude_46Float)
, useLabel(CF_Prelude_46Floating_46Prelude_46Float)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46atan2)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46isIEEE)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46isNaN)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46isDenormalized)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46significand)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46floatRange)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46isInfinite)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46isNegativeZero)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46floatDigits)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46decodeFloat)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46encodeFloat)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46scaleFloat)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46exponent)
, useLabel(F0_Prelude_46RealFloat_46Prelude_46Float_46floatRadix)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float[] = {
 	/* ST_v400: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46atan2[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46atan2[] = {
 	/* ST_v384: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(97,116,97,110)
, bytes2word(50,0,0,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46decodeFloat[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46decodeFloat[] = {
 	/* ST_v370: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(100,101,99,111)
, bytes2word(100,101,70,108)
, bytes2word(111,97,116,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46encodeFloat[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46encodeFloat[] = {
 	/* ST_v366: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(101,110,99,111)
, bytes2word(100,101,70,108)
, bytes2word(111,97,116,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46exponent[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46exponent[] = {
 	/* ST_v396: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(101,120,112,111)
, bytes2word(110,101,110,116)
, bytes2word(0,0,0,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46floatDigits[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46floatDigits[] = {
 	/* ST_v378: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(102,108,111,97)
, bytes2word(116,68,105,103)
, bytes2word(105,116,115,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46floatRadix[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46floatRadix[] = {
 	/* ST_v381: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(102,108,111,97)
, bytes2word(116,82,97,100)
, bytes2word(105,120,0,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46floatRange[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46floatRange[] = {
 	/* ST_v374: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(102,108,111,97)
, bytes2word(116,82,97,110)
, bytes2word(103,101,0,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46isDenormalized[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46isDenormalized[] = {
 	/* ST_v352: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(105,115,68,101)
, bytes2word(110,111,114,109)
, bytes2word(97,108,105,122)
, bytes2word(101,100,0,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46isIEEE[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46isIEEE[] = {
 	/* ST_v342: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(105,115,73,69)
, bytes2word(69,69,0,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46isInfinite[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46isInfinite[] = {
 	/* ST_v357: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(105,115,73,110)
, bytes2word(102,105,110,105)
, bytes2word(116,101,0,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46isNaN[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46isNaN[] = {
 	/* ST_v362: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(105,115,78,97)
, bytes2word(78,0,0,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46isNegativeZero[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46isNegativeZero[] = {
 	/* ST_v346: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(105,115,78,101)
, bytes2word(103,97,116,105)
, bytes2word(118,101,90,101)
, bytes2word(114,111,0,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46scaleFloat[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46scaleFloat[] = {
 	/* ST_v388: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(115,99,97,108)
, bytes2word(101,70,108,111)
, bytes2word(97,116,0,0)
,};
Node PP_Prelude_46RealFloat_46Prelude_46Float_46significand[] = {
 };
Node PC_Prelude_46RealFloat_46Prelude_46Float_46significand[] = {
 	/* ST_v392: (byte 0) */
  bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(82,101,97,108)
, bytes2word(70,108,111,97)
, bytes2word(116,46,80,114)
, bytes2word(101,108,117,100)
, bytes2word(101,46,70,108)
, bytes2word(111,97,116,46)
, bytes2word(115,105,103,110)
, bytes2word(105,102,105,99)
,	/* PP_Prelude_46cFIsFinite: (byte 4) */
 	/* PC_Prelude_46cFIsFinite: (byte 4) */
 	/* ST_v336: (byte 4) */
  bytes2word(97,110,100,0)
, bytes2word(80,114,101,108)
, bytes2word(117,100,101,46)
, bytes2word(99,70,73,115)
, bytes2word(70,105,110,105)
,	/* PP_Prelude_46cFIsNaN: (byte 3) */
 	/* PC_Prelude_46cFIsNaN: (byte 3) */
 	/* ST_v339: (byte 3) */
  bytes2word(116,101,0,80)
, bytes2word(114,101,108,117)
, bytes2word(100,101,46,99)
, bytes2word(70,73,115,78)
,	/* PP_Prelude_46cFIsNeg: (byte 3) */
 	/* PC_Prelude_46cFIsNeg: (byte 3) */
 	/* ST_v330: (byte 3) */
  bytes2word(97,78,0,80)
, bytes2word(114,101,108,117)
, bytes2word(100,101,46,99)
, bytes2word(70,73,115,78)
,	/* PP_Prelude_46cFIsNormal: (byte 3) */
 	/* PC_Prelude_46cFIsNormal: (byte 3) */
 	/* ST_v333: (byte 3) */
  bytes2word(101,103,0,80)
, bytes2word(114,101,108,117)
, bytes2word(100,101,46,99)
, bytes2word(70,73,115,78)
, bytes2word(111,114,109,97)
, bytes2word(108,0,0,0)
,	/* PS_v338: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46cFIsNaN)
, useLabel(PC_Prelude_46cFIsNaN)
,	/* PS_v335: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46cFIsFinite)
, useLabel(PC_Prelude_46cFIsFinite)
,	/* PS_v332: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46cFIsNormal)
, useLabel(PC_Prelude_46cFIsNormal)
,	/* PS_v329: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46cFIsNeg)
, useLabel(PC_Prelude_46cFIsNeg)
,	/* PS_v380: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46floatRadix)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46floatRadix)
,	/* PS_v377: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46floatDigits)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46floatDigits)
,	/* PS_v375: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46floatRange)
, useLabel(PC_Prelude_462)
,	/* PS_v373: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46floatRange)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46floatRange)
,	/* PS_v371: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46decodeFloat)
, useLabel(PC_Prelude_46primDecodeFloat)
,	/* PS_v369: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46decodeFloat)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46decodeFloat)
,	/* PS_v367: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46encodeFloat)
, useLabel(PC_Prelude_46primEncodeFloat)
,	/* PS_v365: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46encodeFloat)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46encodeFloat)
,	/* PS_v363: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isNaN)
, useLabel(PC_Prelude_46cFIsNaN)
,	/* PS_v361: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isNaN)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46isNaN)
,	/* PS_v359: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isInfinite)
, useLabel(PC_Prelude_46not)
,	/* PS_v358: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isInfinite)
, useLabel(PC_Prelude_46cFIsFinite)
,	/* PS_v356: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isInfinite)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46isInfinite)
,	/* PS_v354: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isDenormalized)
, useLabel(PC_Prelude_46not)
,	/* PS_v353: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isDenormalized)
, useLabel(PC_Prelude_46cFIsNormal)
,	/* PS_v351: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isDenormalized)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46isDenormalized)
,	/* PS_v349: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isNegativeZero)
, useLabel(PC_Prelude_46_38_38)
,	/* PS_v347: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isNegativeZero)
, useLabel(PC_Prelude_46cFIsNeg)
,	/* PS_v345: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isNegativeZero)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46isNegativeZero)
,	/* PS_v348: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isNegativeZero)
, useLabel(PC_Prelude_46Eq_46Prelude_46Float_46_61_61)
,	/* PS_v343: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isIEEE)
, useLabel(PC_Prelude_46True)
,	/* PS_v341: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46isIEEE)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46isIEEE)
,	/* PS_v397: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46exponent)
, useLabel(PC_Prelude_46_95_46exponent)
,	/* PS_v395: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46exponent)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46exponent)
,	/* PS_v393: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46significand)
, useLabel(PC_Prelude_46_95_46significand)
,	/* PS_v391: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46significand)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46significand)
,	/* PS_v389: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46scaleFloat)
, useLabel(PC_Prelude_46_95_46scaleFloat)
,	/* PS_v387: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46scaleFloat)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46scaleFloat)
,	/* PS_v385: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46atan2)
, useLabel(PC_Prelude_46_95_46atan2)
,	/* PS_v383: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float_46atan2)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float_46atan2)
,	/* PS_v399: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float)
, useLabel(PC_Prelude_46RealFloat_46Prelude_46Float)
,	/* PS_v401: (byte 0) */
  useLabel(PM_Prelude)
, useLabel(PP_Prelude_46RealFloat_46Prelude_46Float)
, useLabel(PC_Prelude_4616)
,};

#include <haskell2c.h>
#include <HsFFI.h>

/* foreign import ccall "math.h signbit" Prelude.cFIsNeg 1 :: Prelude.Float -> Prelude.Bool */
#include "math.h"
#ifdef PROFILE
static SInfo pf_Prelude_46cFIsNeg = {"Prelude","Prelude.cFIsNeg","Prelude.Bool"};
#endif
C_HEADER(FR_Prelude_46cFIsNeg) {
  NodePtr nodeptr;
  HsBool result;
  float arg1;
  nodeptr = C_GETARG1(1);
  IND_REMOVE(nodeptr);
  arg1 = (float)get_float_value(nodeptr);

  result = signbit(arg1);

  nodeptr = nhc_mkBool(result);
  INIT_PROFINFO(nodeptr,&pf_Prelude_46cFIsNeg);
  C_RETURN(nodeptr);
}

/* foreign import ccall "math.h isnormal" Prelude.cFIsNormal 1 :: Prelude.Float -> Prelude.Bool */
#include "math.h"
#ifdef PROFILE
static SInfo pf_Prelude_46cFIsNormal = {"Prelude","Prelude.cFIsNormal","Prelude.Bool"};
#endif
C_HEADER(FR_Prelude_46cFIsNormal) {
  NodePtr nodeptr;
  HsBool result;
  float arg1;
  nodeptr = C_GETARG1(1);
  IND_REMOVE(nodeptr);
  arg1 = (float)get_float_value(nodeptr);

  result = isnormal(arg1);

  nodeptr = nhc_mkBool(result);
  INIT_PROFINFO(nodeptr,&pf_Prelude_46cFIsNormal);
  C_RETURN(nodeptr);
}

/* foreign import ccall "math.h isfinite" Prelude.cFIsFinite 1 :: Prelude.Float -> Prelude.Bool */
#include "math.h"
#ifdef PROFILE
static SInfo pf_Prelude_46cFIsFinite = {"Prelude","Prelude.cFIsFinite","Prelude.Bool"};
#endif
C_HEADER(FR_Prelude_46cFIsFinite) {
  NodePtr nodeptr;
  HsBool result;
  float arg1;
  nodeptr = C_GETARG1(1);
  IND_REMOVE(nodeptr);
  arg1 = (float)get_float_value(nodeptr);

  result = isfinite(arg1);

  nodeptr = nhc_mkBool(result);
  INIT_PROFINFO(nodeptr,&pf_Prelude_46cFIsFinite);
  C_RETURN(nodeptr);
}

/* foreign import ccall "math.h isnan" Prelude.cFIsNaN 1 :: Prelude.Float -> Prelude.Bool */
#include "math.h"
#ifdef PROFILE
static SInfo pf_Prelude_46cFIsNaN = {"Prelude","Prelude.cFIsNaN","Prelude.Bool"};
#endif
C_HEADER(FR_Prelude_46cFIsNaN) {
  NodePtr nodeptr;
  HsBool result;
  float arg1;
  nodeptr = C_GETARG1(1);
  IND_REMOVE(nodeptr);
  arg1 = (float)get_float_value(nodeptr);

  result = isnan(arg1);

  nodeptr = nhc_mkBool(result);
  INIT_PROFINFO(nodeptr,&pf_Prelude_46cFIsNaN);
  C_RETURN(nodeptr);
}

Bell Labs OSI certified Powered by Plan 9

(Return to Plan 9 Home Page)

Copyright © 2021 Plan 9 Foundation. All Rights Reserved.
Comments to [email protected].