Diff
checker
Text
Text
Bilder
Dokumente
Excel
Ordner
Legal
Enterprise
Desktop-App
Preise
Einloggen
Diffchecker Desktop herunterladen
Texte vergleichen
Finde den Unterschied zwischen zwei Textdateien
Werkzeuge
Verlauf
Live-Editor
Leerzeichen ausblenden
Gleiches ausblenden
Zeilenumbruch aus
Ansicht
Zweispaltig
Einspaltig
Vergleichsgenauigkeit
Intelligent
Wort
Zeichen
Textstile
Darstellung ändern
Syntaxhervorhebung
Syntax auswählen
Ignorieren
Text umwandeln
Zur ersten Änderung
Eingabe bearbeiten
Diffchecker Desktop
Der sicherste Weg, Diffchecker zu nutzen. Hol dir die Desktop-App: Deine Diffs verlassen nie deinen Computer!
Desktop holen
Untitled diff
Erstellt
vor 8 Jahren
Diff läuft nie ab
Löschen
Exportieren
Teilen
Erklären
49 Entfernungen
Zeilen
Gesamt
Entfernt
Zeichen
Gesamt
Entfernt
Um diese Funktion weiterhin zu nutzen, aktualisiere auf
Diff
checker
Pro
Preise anzeigen
81 Zeilen
Kopieren
44 Hinzufügungen
Zeilen
Gesamt
Hinzugefügt
Zeichen
Gesamt
Hinzugefügt
Um diese Funktion weiterhin zu nutzen, aktualisiere auf
Diff
checker
Pro
Preise anzeigen
76 Zeilen
Kopieren
Kopieren
Kopiert
Kopieren
Kopiert
cbQ
9
: // global
cbQ
A
: // global
R5 = P64[Sp + 32];
R5 = P64[Sp + 32];
R4 = P64[Sp + 24];
R4 = P64[Sp + 24];
R3 = P64[Sp + 16];
R3 = P64[Sp + 16];
R2 = P64[Sp + 8];
R2 = P64[Sp + 8];
Sp = Sp + 48;
Sp = Sp + 48;
call GHC.IO.Handle.Internals.$wdo_operation_info(R5,
call GHC.IO.Handle.Internals.$wdo_operation_info(R5,
R4,
R4,
R3,
R3,
R2) args: 8, res: 0, upd: 8;
R2) args: 8, res: 0, upd: 8;
Kopieren
Kopiert
Kopieren
Kopiert
cbQ
6
: // global
cbQ
x
: // global
R1 = _saE
g
::P64;
R1 = _saE
F
::P64;
Sp = Sp + 48;
Sp = Sp + 48;
call stg_raiseIO#(R1) args: 8, res: 0, upd: 8;
call stg_raiseIO#(R1) args: 8, res: 0, upd: 8;
}
}
},
},
Kopieren
Kopiert
Kopieren
Kopiert
sat_entry() // [R1]
{ info_tbl: [(cbQt,
label: sat_info
rep:HeapRep 2 ptrs { Thunk })]
stack_info: arg_space: 8 updfr_space: Just 8
}
{offset
cbQt: // global
R2 = P64[R1 + 24];
R1 = P64[R1 + 16];
call stg_ap_p_fast(R2, R1) args: 8, res: 0, upd: 8;
}
},
GHC.IO.Handle.Internals.$wdo_operation_entry() // [R5, R4, R3, R2]
GHC.IO.Handle.Internals.$wdo_operation_entry() // [R5, R4, R3, R2]
Kopieren
Kopiert
Kopieren
Kopiert
{ info_tbl: [(cbP
q
,
{ info_tbl: [(cbP
P
,
label: block_info
label: block_info
rep:StackRep [False, False, False, False]),
rep:StackRep [False, False, False, False]),
Kopieren
Kopiert
Kopieren
Kopiert
(cbQ
w
,
(cbPR,
label: block_info
rep:StackRep [False, False, False, False, False]),
(cbQ
Q
,
label: GHC.IO.Handle.Internals.$wdo_operation_info
label: GHC.IO.Handle.Internals.$wdo_operation_info
rep:HeapRep static { Fun {arity: 5 fun_type: ArgSpec 24} })]
rep:HeapRep static { Fun {arity: 5 fun_type: ArgSpec 24} })]
stack_info: arg_space: 8 updfr_space: Just 8
stack_info: arg_space: 8 updfr_space: Just 8
}
}
{offset
{offset
Kopieren
Kopiert
Kopieren
Kopiert
cbQ
w
: // global
cbQ
Q
: // global
if ((Sp + -
40
) < SpLim) (likely: False) goto cbQ
x
; else goto cbQ
y
;
if ((Sp + -
48
) < SpLim) (likely: False) goto cbQ
R
; else goto cbQ
S
;
cbQ
x
: // global
cbQ
R
: // global
R5 = R5;
R5 = R5;
R4 = R4;
R4 = R4;
R3 = R3;
R3 = R3;
R2 = R2;
R2 = R2;
R1 = GHC.IO.Handle.Internals.$wdo_operation_closure;
R1 = GHC.IO.Handle.Internals.$wdo_operation_closure;
call (stg_gc_fun)(R5, R4, R3, R2, R1) args: 8, res: 0, upd: 8;
call (stg_gc_fun)(R5, R4, R3, R2, R1) args: 8, res: 0, upd: 8;
Kopieren
Kopiert
Kopieren
Kopiert
cbQ
y
: // global
cbQ
S
: // global
I64[Sp - 40] = cbP
q
;
I64[Sp - 40] = cbP
P
;
R1 = R5;
R1 = R5;
P64[Sp - 32] = R2;
P64[Sp - 32] = R2;
P64[Sp - 24] = R3;
P64[Sp - 24] = R3;
P64[Sp - 16] = R4;
P64[Sp - 16] = R4;
P64[Sp - 8] = R5;
P64[Sp - 8] = R5;
Sp = Sp - 40;
Sp = Sp - 40;
Kopieren
Kopiert
Kopieren
Kopiert
call stg_takeMVar#(R1) returns to cbP
q
, args: 8, res: 8, upd: 8;
call stg_takeMVar#(R1) returns to cbP
P
, args: 8, res: 8, upd: 8;
cbPq
: // global
cbPP: // global
Hp = Hp +
80
;
I64[Sp - 8] = cbPR;
if (Hp > HpLim) (likely: False) goto cbQ
B
; else goto cbQ
A
;
R2 = R1;
cbQ
B
: // global
_saEA::P64 = R1;
HpAlloc =
80
;
R1 = P64[Sp + 24];
P64[Sp] = _saEA::P64;
Sp = Sp - 8;
call stg_ap_p_fast(R2,
R1) returns to cbPR, args: 8, res: 8, upd: 8;
cbPR
: // global
Hp = Hp +
48
;
if (Hp > HpLim) (likely: False) goto cbQ
W
; else goto cbQ
V
;
cbQ
W
: // global
HpAlloc =
48
;
R1 = R1;
R1 = R1;
Kopieren
Kopiert
Kopieren
Kopiert
call stg_gc_unpt_r1(R1) returns to cbP
q
, args: 8, res: 8, upd: 8;
call stg_gc_unpt_r1(R1) returns to cbP
R
, args: 8, res: 8, upd: 8;
cbQ
A
: // global
cbQ
V
: // global
I64[Hp -
72
] = sat_info;
I64[Hp -
40
] = sat_info;
P64[Hp -
64] = P64[Sp + 8];
P64[Hp -
32
] = P64[Sp + 16];
P64[Hp - 56
] = P64[Sp + 16];
P64
[Hp - 24]
= P64[Sp + 24];
_saE6::
P64
= P64[Sp + 24];
P64[Hp -
16
] = P64[Sp + 32];
P64[Hp -
48] = _saE6::P64;
P64[Hp -
8
] =
P64[
Sp + 40]
;
P64[Hp - 40
] = P64[Sp + 32];
P64[Hp] =
P64[Sp + 8]
;
P64[Hp -
32] = R1;
R2 = Hp -
38
;
I64[Hp - 24
] =
sat_info;
R1 =
R1
;
P64[
Hp - 8] = _saE6::P64
;
Sp = Sp +
48
;
P64[Hp] =
R1
;
R2 = Hp -
70
;
R1 =
Hp - 24
;
Sp = Sp +
40
;
call stg_catch#(R2, R1) args: 8, res: 0, upd: 8;
call stg_catch#(R2, R1) args: 8, res: 0, upd: 8;
}
}
}]
}]
Gespeicherte Diffs
Originaltext
Datei öffnen
cbQ9: // global R5 = P64[Sp + 32]; R4 = P64[Sp + 24]; R3 = P64[Sp + 16]; R2 = P64[Sp + 8]; Sp = Sp + 48; call GHC.IO.Handle.Internals.$wdo_operation_info(R5, R4, R3, R2) args: 8, res: 0, upd: 8; cbQ6: // global R1 = _saEg::P64; Sp = Sp + 48; call stg_raiseIO#(R1) args: 8, res: 0, upd: 8; } }, sat_entry() // [R1] { info_tbl: [(cbQt, label: sat_info rep:HeapRep 2 ptrs { Thunk })] stack_info: arg_space: 8 updfr_space: Just 8 } {offset cbQt: // global R2 = P64[R1 + 24]; R1 = P64[R1 + 16]; call stg_ap_p_fast(R2, R1) args: 8, res: 0, upd: 8; } }, GHC.IO.Handle.Internals.$wdo_operation_entry() // [R5, R4, R3, R2] { info_tbl: [(cbPq, label: block_info rep:StackRep [False, False, False, False]), (cbQw, label: GHC.IO.Handle.Internals.$wdo_operation_info rep:HeapRep static { Fun {arity: 5 fun_type: ArgSpec 24} })] stack_info: arg_space: 8 updfr_space: Just 8 } {offset cbQw: // global if ((Sp + -40) < SpLim) (likely: False) goto cbQx; else goto cbQy; cbQx: // global R5 = R5; R4 = R4; R3 = R3; R2 = R2; R1 = GHC.IO.Handle.Internals.$wdo_operation_closure; call (stg_gc_fun)(R5, R4, R3, R2, R1) args: 8, res: 0, upd: 8; cbQy: // global I64[Sp - 40] = cbPq; R1 = R5; P64[Sp - 32] = R2; P64[Sp - 24] = R3; P64[Sp - 16] = R4; P64[Sp - 8] = R5; Sp = Sp - 40; call stg_takeMVar#(R1) returns to cbPq, args: 8, res: 8, upd: 8; cbPq: // global Hp = Hp + 80; if (Hp > HpLim) (likely: False) goto cbQB; else goto cbQA; cbQB: // global HpAlloc = 80; R1 = R1; call stg_gc_unpt_r1(R1) returns to cbPq, args: 8, res: 8, upd: 8; cbQA: // global I64[Hp - 72] = sat_info; P64[Hp - 64] = P64[Sp + 8]; P64[Hp - 56] = P64[Sp + 16]; _saE6::P64 = P64[Sp + 24]; P64[Hp - 48] = _saE6::P64; P64[Hp - 40] = P64[Sp + 32]; P64[Hp - 32] = R1; I64[Hp - 24] = sat_info; P64[Hp - 8] = _saE6::P64; P64[Hp] = R1; R2 = Hp - 70; R1 = Hp - 24; Sp = Sp + 40; call stg_catch#(R2, R1) args: 8, res: 0, upd: 8; } }]
Bearbeitung
Datei öffnen
cbQA: // global R5 = P64[Sp + 32]; R4 = P64[Sp + 24]; R3 = P64[Sp + 16]; R2 = P64[Sp + 8]; Sp = Sp + 48; call GHC.IO.Handle.Internals.$wdo_operation_info(R5, R4, R3, R2) args: 8, res: 0, upd: 8; cbQx: // global R1 = _saEF::P64; Sp = Sp + 48; call stg_raiseIO#(R1) args: 8, res: 0, upd: 8; } }, GHC.IO.Handle.Internals.$wdo_operation_entry() // [R5, R4, R3, R2] { info_tbl: [(cbPP, label: block_info rep:StackRep [False, False, False, False]), (cbPR, label: block_info rep:StackRep [False, False, False, False, False]), (cbQQ, label: GHC.IO.Handle.Internals.$wdo_operation_info rep:HeapRep static { Fun {arity: 5 fun_type: ArgSpec 24} })] stack_info: arg_space: 8 updfr_space: Just 8 } {offset cbQQ: // global if ((Sp + -48) < SpLim) (likely: False) goto cbQR; else goto cbQS; cbQR: // global R5 = R5; R4 = R4; R3 = R3; R2 = R2; R1 = GHC.IO.Handle.Internals.$wdo_operation_closure; call (stg_gc_fun)(R5, R4, R3, R2, R1) args: 8, res: 0, upd: 8; cbQS: // global I64[Sp - 40] = cbPP; R1 = R5; P64[Sp - 32] = R2; P64[Sp - 24] = R3; P64[Sp - 16] = R4; P64[Sp - 8] = R5; Sp = Sp - 40; call stg_takeMVar#(R1) returns to cbPP, args: 8, res: 8, upd: 8; cbPP: // global I64[Sp - 8] = cbPR; R2 = R1; _saEA::P64 = R1; R1 = P64[Sp + 24]; P64[Sp] = _saEA::P64; Sp = Sp - 8; call stg_ap_p_fast(R2, R1) returns to cbPR, args: 8, res: 8, upd: 8; cbPR: // global Hp = Hp + 48; if (Hp > HpLim) (likely: False) goto cbQW; else goto cbQV; cbQW: // global HpAlloc = 48; R1 = R1; call stg_gc_unpt_r1(R1) returns to cbPR, args: 8, res: 8, upd: 8; cbQV: // global I64[Hp - 40] = sat_info; P64[Hp - 32] = P64[Sp + 16]; P64[Hp - 24] = P64[Sp + 24]; P64[Hp - 16] = P64[Sp + 32]; P64[Hp - 8] = P64[Sp + 40]; P64[Hp] = P64[Sp + 8]; R2 = Hp - 38; R1 = R1; Sp = Sp + 48; call stg_catch#(R2, R1) args: 8, res: 0, upd: 8; } }]
Unterschied finden