Annotation of OpenXM/src/kan96xx/Kan/global.c, Revision 1.5
1.5 ! takayama 1: /* global.c $OpenXM: OpenXM/src/kan96xx/Kan/global.c,v 1.4 1999/11/07 13:24:19 takayama Exp $ */
1.1 maekawa 2: #include <stdio.h>
3: #include <setjmp.h>
4: #include "datatype.h"
5: #include "stackm.h"
6: #include "lookup.h"
7:
8: /*-------- variables to define a ring ----------------*/
9: /*
10: The numbers L,M, LL,MM,NN are set in setUpRing() in setupring.c now.
11:
12: Be careful when you do not use one of three type variables.
13: Any setting must keep the relation: L<=M<=N.
14: You must see mmwMult() in poly.c in the above case.
15: Example. L=M=0 means there is no q-variables and difference variables.
16: L=5, M=N=5 means all variables are q-variables (x0=q).
17: L=2, M=2, N=5 means x0=q, x1 is q-variable and x2,,,,x4 are
18: differential variables.
19: L=0, M=2, N=5 means x0,x1 are difference variables and x2,,,x4
20: are differential variables. */
21: /*#define L 0 number of q-variables */
22: /*#define M 0 number of difference variables */
23: /*Number of elimination variables */
24: /*#define LL 0 */
25: /*#define MM 0 */
26: /* x_MM,...,x_{M-1} are eliminated difference variables */
27: /* MM < M if you want to use it. MM>=M if you do not use it */
28: /*#define NN 9 */
29: /*x_NN,...,x_{N-1} are eliminated differential variables */
30: /* NN < N if you want to use it. NN>=N if you do not use it.
31: See the eliminated_standard() in dbm3.c */
32:
33:
34: /* They are not used.
35: int N = 6;
36: int L = 1;
37: int M = 1;
38: int C = 1;
39: int NN = 5;
40: int MM = 1;
41: int LL = 1;
42: int CC = 1;
43: */
44:
45:
46: /********** These variables are set in setUpRing() ***********************/
47: int Md = 0; /* if Md=1, then x_NN, ..., x_{N-1} are eliminated variables*/
48: int Med = 0; /* if Med=1, then x_MM, ..., x_{M-1} are eliminated variables*/
49: int Mq = 0; /* if Mq=1, then x_LL, ..., x_{L-1} are eliminated variables*/
50:
51: char **TransX; /* name of variables */
52: char **TransD;
53: int *Order; /* order matrix */
54:
55: int Msize = 0;
56: /*int P = 32609; */ /* characteristic */
57: /* ------------------ end of variables for the ring -------------- */
58:
59: struct ring SmallRing;
60: struct ring *SmallRingp = &SmallRing;
61:
62: struct ring *CurrentRingp = (struct ring *)0;
63:
64: struct ring *SyzRingp = (struct ring *)0;
65:
66: MP_INT *Mp_one;
67: MP_INT *Mp_zero;
68: MP_INT Mp_work_iiComb;
69: MP_INT Mp_work_iiPower;
70: MP_INT Mp_work_iiPoch;
71:
72: struct coeff *UniversalZero;
73: struct coeff *UniversalOne;
74:
75: /*******************************************************************/
76: int History = 1; /* get a transformation matrix or not */
77:
78: int Commutative = 0;
79: int UseCriterion1 = 0;
80: int UseCriterion2B = 0;
81: int OutputStyle = '*';
82: int Wrap = 0; /* output.c */
83: int Verbose = 0;
84: int ReduceLowerTerms = 1;
85: int Criterion2B = 0;
86: int Criterion2M = 0;
87: int Criterion2F = 0;
88: int Statistics = 0;
89: int CheckHomogenization = 1;
90: int ErrorMessageMode = 0;
91: int WarningMessageMode = 0;
92: int CatchCtrlC = 0;
93: int Strict = 0; /* It is used warning. */
94: int Strict2 = 0; /* It is used in putDictionary */
95: extern struct dictionary UserDictionary[];
96: int SigIgn = 0;
97: int StopDegree = 0x7fff;
98: int KSPushEnvMode = 0;
99: int Sugar = 0;
100: int Homogenize_vec = 1; /*x + e (x+1)===>(1) x h + e (x+h) or (0)x + e(x+h) */
101: int CmoDMSOutputOption = 0; /* Output with
102: (1) RING_BY_NAME or (0) DMS_OF_N_VARIABLES.
103: plugin/cmo.c */
104:
105: /* global variables for stackmachine.c */
106: int VerboseStack = 1; /* 0 is quiet, 1 is standard, 2 ... */
107: int DebugStack = 0;
108:
109: FILE *Fstack = stdout; /* standard output stream
110: for module: stackmachine */
111:
112: #if defined(sun)
113: /* in case of Solaris, use the following: */
114: int EnvOfStackMachine[2000];
115: #else
116: jmp_buf EnvOfStackMachine;
117: #endif
118:
119: struct object NullObject;
120: struct object NoObject;
121:
122: int Lookup[TYPES][TYPES];
123:
124: int Quiet = 0;
125: int TimerOn = 0;
126:
1.5 ! takayama 127: char *VersionString = "2.991118";
1.1 maekawa 128:
1.4 takayama 129: char *LeftBracket = NULL;
130: char *RightBracket = NULL;
131:
1.1 maekawa 132: int AvoidTheSameRing = 1;
133: int DebugCMO = 0; /* plugin/cmo.c */
134: int OXprintMessage = 1; /* referred only from ox_sm1 plugin/ox.hh */
135:
136: char *OxSystem = "ox_sm1.plain"; /* Example : ox_sm1.plain */
137: char *OxSystemVersion = NULL; /* Example : 0.1 */
138:
139: stackmachine_init() {
140: int i,j;
141: OxSystemVersion = VersionString;
142: Fstack = stdout; /* initialize output stream */
1.4 takayama 143: LeftBracket = "["; RightBracket = "]";
1.1 maekawa 144: /* initialize null object */
145: NullObject.tag = 0;
146: NullObject.lc.op = NullObject.rc.op = (struct object *)NULL;
147: /* findUserdictionary returns NoObject if it cannot find the key.*/
148: NoObject.tag = -1;
149: NoObject.lc.op = NoObject.rc.op = (struct object *)NULL;
150: /* Initalize lookup table */
151: for (i=0; i<TYPES; i++) {
152: for (j=0; j<TYPES; j++)
153: Lookup[i][j] = i*TYPES + j; /* Refer to mklookup.c */
154: }
155: /* Initialize hashing */
156: hashInitialize(UserDictionary);
157:
158: initClassDataBase();
159:
160: }
161:
162:
163: stackmachine_close() {
164: /* close output stream */
165: }
166:
167:
168: /* global variables for kanExport0.c */
169: int VerboseK = 1; /* 1 is standard */
170: int DebugK = 0;
171: FILE *Fk = stdout;
172:
173: Kclose() {
174: /* close Fk */
175: }
176:
177:
178:
179:
180:
181:
182:
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