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root/cebix/BasiliskII/src/uae_cpu/fpu/flags.cpp
Revision: 1.4
Committed: 2008-01-01T09:40:36Z (16 years, 11 months ago) by gbeauche
Branch: MAIN
CVS Tags: HEAD
Changes since 1.3: +1 -1 lines
Log Message:
Happy New Year!

File Contents

# Content
1 /*
2 * fpu/flags.cpp - Floating-point flags
3 *
4 * Basilisk II (C) 1997-2008 Christian Bauer
5 *
6 * MC68881/68040 fpu emulation
7 *
8 * Original UAE FPU, copyright 1996 Herman ten Brugge
9 * Rewrite for x86, copyright 1999-2000 Lauri Pesonen
10 * New framework, copyright 2000 Gwenole Beauchesne
11 * Adapted for JIT compilation (c) Bernd Meyer, 2000
12 *
13 * This program is free software; you can redistribute it and/or modify
14 * it under the terms of the GNU General Public License as published by
15 * the Free Software Foundation; either version 2 of the License, or
16 * (at your option) any later version.
17 *
18 * This program is distributed in the hope that it will be useful,
19 * but WITHOUT ANY WARRANTY; without even the implied warranty of
20 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
21 * GNU General Public License for more details.
22 *
23 * You should have received a copy of the GNU General Public License
24 * along with this program; if not, write to the Free Software
25 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
26 */
27
28 /* NOTE: this file shall be included only from fpu/fpu_*.cpp */
29 #undef PRIVATE
30 #define PRIVATE /**/
31
32 #undef PUBLIC
33 #define PUBLIC /**/
34
35 #undef FFPU
36 #define FFPU /**/
37
38 #undef FPU
39 #define FPU fpu.
40
41 /* -------------------------------------------------------------------------- */
42 /* --- Native X86 floating-point flags --- */
43 /* -------------------------------------------------------------------------- */
44
45 #ifdef FPU_USE_X86_FLAGS
46
47 /* Initialization */
48 void FFPU fpu_init_native_fflags(void)
49 {
50 // Adapted from fpu_x86.cpp
51 #define SW_Z_I_NAN_MASK (SW_C0|SW_C2|SW_C3)
52 #define SW_Z (SW_C3)
53 #define SW_I (SW_C0|SW_C2)
54 #define SW_NAN (SW_C0)
55 #define SW_FINITE (SW_C2)
56 #define SW_EMPTY_REGISTER (SW_C0|SW_C3)
57 #define SW_DENORMAL (SW_C2|SW_C3)
58 #define SW_UNSUPPORTED (0)
59 #define SW_N (SW_C1)
60
61 // Sanity checks
62 #if (SW_Z != NATIVE_FFLAG_ZERO)
63 #error "Incorrect X86 Z fflag"
64 #endif
65 #if (SW_I != NATIVE_FFLAG_INFINITY)
66 #error "Incorrect X86 I fflag"
67 #endif
68 #if (SW_N != NATIVE_FFLAG_NEGATIVE)
69 #error "Incorrect X86 N fflag"
70 #endif
71 #if (SW_NAN != NATIVE_FFLAG_NAN)
72 #error "Incorrect X86 NAN fflag"
73 #endif
74
75 // Native status word to m68k mappings
76 for (uae_u32 i = 0; i < 0x48; i++) {
77 to_m68k_fpcond[i] = 0;
78 const uae_u32 native_fpcond = i << 8;
79 switch (native_fpcond & SW_Z_I_NAN_MASK) {
80 #ifndef FPU_UAE
81 // gb-- enabling it would lead to incorrect drawing of digits
82 // in Speedometer Performance Test
83 case SW_UNSUPPORTED:
84 #endif
85 case SW_NAN:
86 case SW_EMPTY_REGISTER:
87 to_m68k_fpcond[i] |= FPSR_CCB_NAN;
88 break;
89 case SW_FINITE:
90 case SW_DENORMAL:
91 break;
92 case SW_I:
93 to_m68k_fpcond[i] |= FPSR_CCB_INFINITY;
94 break;
95 case SW_Z:
96 to_m68k_fpcond[i] |= FPSR_CCB_ZERO;
97 break;
98 }
99 if (native_fpcond & SW_N)
100 to_m68k_fpcond[i] |= FPSR_CCB_NEGATIVE;
101 }
102
103 // m68k to native status word mappings
104 for (uae_u32 i = 0; i < 0x10; i++) {
105 const uae_u32 m68k_fpcond = i << 24;
106 if (m68k_fpcond & FPSR_CCB_NAN)
107 to_host_fpcond[i] = SW_NAN;
108 else if (m68k_fpcond & FPSR_CCB_ZERO)
109 to_host_fpcond[i] = SW_Z;
110 else if (m68k_fpcond & FPSR_CCB_INFINITY)
111 to_host_fpcond[i] = SW_I;
112 else
113 to_host_fpcond[i] = SW_FINITE;
114 if (m68k_fpcond & FPSR_CCB_NEGATIVE)
115 to_host_fpcond[i] |= SW_N;
116 }
117
118 // truth-table for FPU conditions
119 for (uae_u32 host_fpcond = 0; host_fpcond < 0x08; host_fpcond++) {
120 // host_fpcond: C3 on bit 2, C1 and C0 are respectively on bits 1 and 0
121 const uae_u32 real_host_fpcond = ((host_fpcond & 4) << 12) | ((host_fpcond & 3) << 8);
122 const bool N = ((real_host_fpcond & NATIVE_FFLAG_NEGATIVE) == NATIVE_FFLAG_NEGATIVE);
123 const bool Z = ((real_host_fpcond & NATIVE_FFLAG_ZERO) == NATIVE_FFLAG_ZERO);
124 const bool NaN = ((real_host_fpcond & NATIVE_FFLAG_NAN) == NATIVE_FFLAG_NAN);
125
126 int value;
127 for (uae_u32 m68k_fpcond = 0; m68k_fpcond < 0x20; m68k_fpcond++) {
128 switch (m68k_fpcond) {
129 case 0x00: value = 0; break; // False
130 case 0x01: value = Z; break; // Equal
131 case 0x02: value = !(NaN || Z || N); break; // Ordered Greater Than
132 case 0x03: value = Z || !(NaN || N); break; // Ordered Greater Than or Equal
133 case 0x04: value = N && !(NaN || Z); break; // Ordered Less Than
134 case 0x05: value = Z || (N && !NaN); break; // Ordered Less Than or Equal
135 case 0x06: value = !(NaN || Z); break; // Ordered Greater or Less Than
136 case 0x07: value = !NaN; break; // Ordered
137 case 0x08: value = NaN; break; // Unordered
138 case 0x09: value = NaN || Z; break; // Unordered or Equal
139 case 0x0a: value = NaN || !(N || Z); break; // Unordered or Greater Than
140 case 0x0b: value = NaN || Z || !N; break; // Unordered or Greater or Equal
141 case 0x0c: value = NaN || (N && !Z); break; // Unordered or Less Than
142 case 0x0d: value = NaN || Z || N; break; // Unordered or Less or Equal
143 case 0x0e: value = !Z; break; // Not Equal
144 case 0x0f: value = 1; break; // True
145 case 0x10: value = 0; break; // Signaling False
146 case 0x11: value = Z; break; // Signaling Equal
147 case 0x12: value = !(NaN || Z || N); break; // Greater Than
148 case 0x13: value = Z || !(NaN || N); break; // Greater Than or Equal
149 case 0x14: value = N && !(NaN || Z); break; // Less Than
150 case 0x15: value = Z || (N && !NaN); break; // Less Than or Equal
151 case 0x16: value = !(NaN || Z); break; // Greater or Less Than
152 case 0x17: value = !NaN; break; // Greater, Less or Equal
153 case 0x18: value = NaN; break; // Not Greater, Less or Equal
154 case 0x19: value = NaN || Z; break; // Not Greater or Less Than
155 case 0x1a: value = NaN || !(N || Z); break; // Not Less Than or Equal
156 case 0x1b: value = NaN || Z || !N; break; // Not Less Than
157 case 0x1c: value = NaN || (N && !Z); break; // Not Greater Than or Equal
158 // case 0x1c: value = !Z && (NaN || N); break; // Not Greater Than or Equal
159 case 0x1d: value = NaN || Z || N; break; // Not Greater Than
160 case 0x1e: value = !Z; break; // Signaling Not Equal
161 case 0x1f: value = 1; break; // Signaling True
162 default: value = -1;
163 }
164 fpcond_truth_table[m68k_fpcond][host_fpcond] = value;
165 }
166 }
167 }
168
169 #endif