| /dports/biology/p5-BioPerl/BioPerl-1.7.7/t/data/ |
| H A D | tab1part.mif | 1 DIP:4305E DIP:3048N PIR:B64526 GI:2313123 DIP:3047N SWP:O24853 PIR:A64520 GI:2313078
2 DIP:4307E DIP:3050N PIR:H64618 GI:2313921 DIP:3047N SWP:O24853 PIR:A64520 GI:2313078
3 DIP:4308E DIP:3051N PIR:B64520 GI:2313079 DIP:3051N PIR:B64520 GI:2313079
4 DIP:4309E DIP:3052N SWP:P56036 PIR:H64669 GI:2314362 DIP:3051N PIR:B64520 GI:2313079
5 DIP:4310E DIP:3053N PIR:A64696 GI:2314583 DIP:3051N PIR:B64520 GI:2313079
6 DIP:4311E DIP:3054N PIR:C64701 GI:2314631 DIP:3051N PIR:B64520 GI:2313079
27 DIP:4332E DIP:3075N PIR:H64521 GI:2313097 DIP:3075N PIR:H64521 GI:2313097
28 DIP:4333E DIP:3076N PIR:F64524 GI:2313125 DIP:3075N PIR:H64521 GI:2313097
29 DIP:4334E DIP:3077N PIR:D64548 GI:2313317 DIP:3075N PIR:H64521 GI:2313097
30 DIP:4335E DIP:3078N PIR:G64574 GI:2313548 DIP:3075N PIR:H64521 GI:2313097
[all …]
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| H A D | tab3part.mif | 1 DIP:4369E DIP:3111N PIR:C64526 GI:2313124 DIP:3109N PIR:B64525 GI:2313117
2 DIP:4370E DIP:3112N PIR:F64526 GI:2313132 DIP:3109N PIR:B64525 GI:2313117
3 DIP:4384E DIP:3112N PIR:F64526 GI:2313132 DIP:3111N PIR:C64526 GI:2313124
4 DIP:4371E DIP:3059N PIR:F64554 GI:2313368 DIP:3109N PIR:B64525 GI:2313117
5 DIP:4372E DIP:3113N PIR:E64567 GI:2313486 DIP:3109N PIR:B64525 GI:2313117
6 DIP:4373E DIP:3114N PIR:C64572 GI:2313522 DIP:3109N PIR:B64525 GI:2313117
10 DIP:4377E DIP:3118N PIR:H64693 GI:2314561 DIP:3109N PIR:B64525 GI:2313117
11 DIP:4378E DIP:3119N PIR:E64525 GI:2313120 DIP:3119N PIR:E64525 GI:2313120
12 DIP:4379E DIP:3053N PIR:A64696 GI:2314583 DIP:3119N PIR:E64525 GI:2313120
20 DIP:5000E DIP:3122N PIR:G64606 GI:2313818 DIP:1111N PIR:G5 GI:4
[all …]
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| H A D | tab2part.mif | 1 DIP:5000E DIP:3122N PIR:G64606 GI:2313818 DIP:3054N PIR:G64525 GI:2313121
2 DIP:5001E DIP:3122N PIR:G64606 GI:2313818 DIP:3054N PIR:G64525 GI:2313121
3 DIP:5002E DIP:3122N PIR:G64606 GI:2313818 DIP:3054N PIR:G64525 GI:2313121
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| /dports/math/linbox/linbox-1.6.3/tests/ |
| H A D | test-smith-form.h | 42 BlasVector<PIR> & makeBumps(BlasVector<PIR> & b, int choice) { in makeBumps()
43 const PIR & R = b.field(); in makeBumps()
84 template <class PIR>
85 BlasVector<PIR> & prefixProduct (BlasVector<PIR> & d, const BlasVector<PIR> & b) { in prefixProduct()
86 const PIR& R = d.field(); in prefixProduct()
100 template <class PIR>
102 BlasVector<PIR> & d, in makeSNFExample()
143 template <class PIR>
144 bool checkSNFExample( const BlasVector<PIR>& d, const BlasVector<PIR>& x ){ in checkSNFExample()
172 template <class PIR>
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| H A D | test-smith-form-valence.C | 38 typedef Givaro::ZRing<Integer> PIR; typedef
39 typedef SparseMatrix<PIR> Blackbox;
42 const SmithList<PIR>& correctSL) in testValenceSmith()
46 PIR ZZ; in testValenceSmith()
47 MatrixStream< PIR > ms( ZZ, input ); in testValenceSmith()
56 SmithList<PIR> valenceSL; in testValenceSmith()
63 BlasVector<PIR> sfa(ZZ,k); in testValenceSmith()
65 BlasVector<PIR> sdz(ZZ, SmithDiagonal); in testValenceSmith()
79 const SmithList<PIR> smsSL{ {1,8},{1440000,1},{0,2} }; in main()
82 const SmithList<PIR> fibSL{ {1,23},{10,1},{1560,1} }; in main()
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| H A D | test-smith-form-binary.C | 73 typedef Givaro::ZRing<Integer> PIR; in main() typedef
74 PIR R; in main()
77 typedef RationalSolver<PIR, Field, PrimeIterator<IteratorCategories::HeuristicTag> > Solver; in main()
78 typedef LastInvariantFactor<PIR, Solver> LIF; in main()
79 typedef OneInvariantFactor<PIR, LIF, SCompose, RandomMatrix> OIF; in main()
80 typedef SmithFormBinary<PIR, OIF, MatrixRank<PIR, Field > > SF; in main()
87 DenseMatrix<PIR> A(R,m,n); in main()
88 BlasVector<PIR> d(R,k), x(R,k), bumps(R,k), lumps(R,19); in main()
|
| /dports/lang/parrot/parrot-8.1.0/docs/book/draft/ |
| H A D | ch12_operator_reference.pod | 3 =head1 PIR Operator Reference
23 X<+ (plus sign);+ (addition);instruction (PIR)>
33 X<- (hyphen);- (subtraction);instruction (PIR)>
35 X<- (hyphen);- (negation);instruction (PIR)>
55 X</ (slash);/ (division);instruction (PIR)>
170 X<! (bang);! (not);instruction (PIR)>
254 X<call instruction (PIR)>
262 X<global instruction (PIR)>
271 X<goto command (PIR)>
279 X<if (conditional);instruction (PIR)>
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| /dports/math/linbox/linbox-1.6.3/examples/ |
| H A D | mats.C | 72 template <class PIR>
73 void Mat(DenseMatrix<PIR>& M, PIR& R, int & n, string src) ;
95 PIR R; in main()
159 template <class PIR>
160 void RandomRoughMat(DenseMatrix<PIR>& M, PIR& R, int n) { in RandomRoughMat()
187 template <class PIR>
188 void RandomFromDiagMat(DenseMatrix<PIR>& M, PIR& R, int n) { in RandomFromDiagMat()
205 void RandomFibMat(DenseMatrix<PIR>& M, PIR& R, int n) { in RandomFibMat()
240 void TrefMat(DenseMatrix<PIR>& M, PIR& R, int n) { in TrefMat()
306 void KratMat(DenseMatrix<PIR>& M, PIR& R, int q) in KratMat()
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| H A D | smith.C | 79 template <class PIR> void Mat(DenseMatrix<PIR>& M, string src);
85 typedef PIR_ntl_ZZ_p PIR; in main() typedef
140 PIR R( (int32_t)m); in main()
142 DenseMatrix<PIR> M(R); in main()
155 typedef list< PIR::Element > List; in main()
178 PIR R( (int32_t)m); in main()
180 DenseMatrix<PIR> M(R); in main()
184 typedef list< PIR::Element > List; in main()
188 SmithFormLocal<PIR> SmithForm; in main()
202 PIR::Element x = p.back().first, y; in main()
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| /dports/math/linbox/linbox-1.6.3/examples/blackbox/ |
| H A D | smith.C | 56 template<class PIR>
57 void Mat(DenseMatrix<PIR>& M, PIR& R, int n,
100 PIR R(m); in main()
133 PIR R(m); in main()
228 template <class PIR>
230 void Mat(DenseMatrix<PIR>& M, PIR& R, int n, in Mat()
315 void RandomRoughMat(DenseMatrix<PIR>& M, PIR& R, int n) { in RandomRoughMat()
343 void RandomFromDiagMat(DenseMatrix<PIR>& M, PIR& R, int n) { in RandomFromDiagMat()
360 void RandomFibMat(DenseMatrix<PIR>& M, PIR& R, int n) { in RandomFibMat()
465 void TrefMat(DenseMatrix<PIR>& M, PIR& R, int n) { in TrefMat()
[all …]
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| /dports/biology/emboss/EMBOSS-6.6.0/emboss/data/ |
| H A D | Efeatures.pir | 1 # PIR feature types
4 ### 13554 in PIR 62
11 ### 4281 in PIR 62
17 ### 17934 in PIR 62
23 ### 266 in PIR 62
29 ### 387 in PIR 62
34 ### 3713 in PIR 62
40 ### 62550 in PIR 62
46 ### 196 in PIR 62
52 ### 3810 in PIR 62
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| /dports/devel/p5-Path-Iterator-Rule/Path-Iterator-Rule-1.008/t/ |
| H A D | logic.t | 12 use PIR;
27 my $rule = PIR->new;
56 my $rule = PIR->new->file;
67 my $rule = PIR->new;
83 my $rule = PIR->new;
102 my $rule = PIR->new;
121 my $rule = PIR->new;
139 my $rule = PIR->new;
141 PIR->new->not(
142 PIR->new->or( PIR->new->name("lldskfkad"), sub { return \1 if /eeee$/ }, )
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| /dports/misc/gpsim/gpsim-0.31.0/src/ |
| H A D | pir.h | 127 PIR *m_pir;
135 class PIR1v1 : public PIR
210 class PIR1v2 : public PIR
286 class PIR1v3 : public PIR
923 PIR *pir1;
924 PIR *pir2;
1082 PIR *pir1;
1083 PIR *pir2;
1084 PIR *pir3;
1085 PIR *pir4;
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| H A D | pir.cc | 29 PIR::PIR(Processor *pCpu, const char *pName, const char *pDesc,INTCON *_intcon, PIE *_pie, int _val… in PIR() function in PIR
36 void PIR::put(unsigned int new_value) in put()
51 void PIR::set_intcon(INTCON *_intcon) in set_intcon()
57 void PIR::set_pie(PIE *_pie) in set_pie()
62 void PIR::set_ipr(sfr_register *_ipr) in set_ipr()
67 void PIR::setInterrupt(unsigned int bitMask) in setInterrupt()
75 void PIR::setPeripheralInterrupt() in setPeripheralInterrupt()
86 int PIR::interrupt_status() in interrupt_status()
132 : PIR(pCpu,pName,pDesc,_intcon, _pie,0) in PIR1v1()
194 : PIR(pCpu,pName,pDesc,_intcon, _pie,0) in PIR1v2()
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| /dports/lang/parrot/parrot-8.1.0/docs/imcc/ |
| H A D | imcfaq.pod | 24 =head2 What is IMC, PIR and IMCC?
110 use PIR is the amount of abstraction it provides. PIR now completely hides
136 =head1 PIR PROGRAMMING 101
143 =begin PIR
150 =end PIR
181 =item Compile to bytecode from PIR.
198 =head2 What are PIR variables?
239 =begin PIR
248 =end PIR
255 =begin PIR
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| /dports/lang/parrot/parrot-8.1.0/docs/user/pir/ |
| H A D | intro.pod | 89 =begin PIR
95 =end PIR
217 =begin PIR
227 =end PIR
247 =end PIR
261 =end PIR
306 =end PIR
325 =end PIR
352 =end PIR
377 =end PIR
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| /dports/lang/parrot/parrot-8.1.0/examples/tge/branch/ |
| H A D | branch.g | 3 transform min (Leaf) :language('PIR') {
8 transform min (Branch) :language('PIR') {
28 transform gmin (ROOT) :language('PIR') {
35 transform gmin (Branch) :applyto('left') :language('PIR') {
41 transform gmin (Branch) :applyto('right') :language('PIR') {
49 transform result (Leaf) :language('PIR') {
58 transform result (Branch) :language('PIR') {
|
| /dports/lang/gcc12-devel/gcc-12-20211205/libphobos/libdruntime/core/ |
| H A D | math.d | 246 enum real PIR = 0xc.90fdaa22168c235p-2; variable
249 static assert(approxEqual(toPrec!float(PIR), PIF));
250 static assert(approxEqual(toPrec!double(PIR), PID));
251 static assert(approxEqual(toPrec!real(PIR), PIR));
259 assert(approxEqual(toPrec!float(PIR), PIF));
260 assert(approxEqual(toPrec!double(PIR), PID));
261 assert(approxEqual(toPrec!real(PIR), PIR));
|
| /dports/lang/gcc11/gcc-11.2.0/libphobos/libdruntime/core/ |
| H A D | math.d | 246 enum real PIR = 0xc.90fdaa22168c235p-2; variable
249 static assert(approxEqual(toPrec!float(PIR), PIF));
250 static assert(approxEqual(toPrec!double(PIR), PID));
251 static assert(approxEqual(toPrec!real(PIR), PIR));
259 assert(approxEqual(toPrec!float(PIR), PIF));
260 assert(approxEqual(toPrec!double(PIR), PID));
261 assert(approxEqual(toPrec!real(PIR), PIR));
|
| /dports/lang/gcc10/gcc-10.3.0/libphobos/libdruntime/core/ |
| H A D | math.d | 231 enum real PIR = 0xc.90fdaa22168c235p-2; variable
234 static assert(approxEqual(toPrec!float(PIR), PIF));
235 static assert(approxEqual(toPrec!double(PIR), PID));
236 static assert(approxEqual(toPrec!real(PIR), PIR));
244 assert(approxEqual(toPrec!float(PIR), PIF));
245 assert(approxEqual(toPrec!double(PIR), PID));
246 assert(approxEqual(toPrec!real(PIR), PIR));
|
| /dports/lang/gcc11-devel/gcc-11-20211009/libphobos/libdruntime/core/ |
| H A D | math.d | 246 enum real PIR = 0xc.90fdaa22168c235p-2; variable
249 static assert(approxEqual(toPrec!float(PIR), PIF));
250 static assert(approxEqual(toPrec!double(PIR), PID));
251 static assert(approxEqual(toPrec!real(PIR), PIR));
259 assert(approxEqual(toPrec!float(PIR), PIF));
260 assert(approxEqual(toPrec!double(PIR), PID));
261 assert(approxEqual(toPrec!real(PIR), PIR));
|
| /dports/devel/avr-gcc/gcc-10.2.0/libphobos/libdruntime/core/ |
| H A D | math.d | 231 enum real PIR = 0xc.90fdaa22168c235p-2; variable
234 static assert(approxEqual(toPrec!float(PIR), PIF));
235 static assert(approxEqual(toPrec!double(PIR), PID));
236 static assert(approxEqual(toPrec!real(PIR), PIR));
244 assert(approxEqual(toPrec!float(PIR), PIF));
245 assert(approxEqual(toPrec!double(PIR), PID));
246 assert(approxEqual(toPrec!real(PIR), PIR));
|
| /dports/lang/gcc10-devel/gcc-10-20211008/libphobos/libdruntime/core/ |
| H A D | math.d | 231 enum real PIR = 0xc.90fdaa22168c235p-2; variable
234 static assert(approxEqual(toPrec!float(PIR), PIF));
235 static assert(approxEqual(toPrec!double(PIR), PID));
236 static assert(approxEqual(toPrec!real(PIR), PIR));
244 assert(approxEqual(toPrec!float(PIR), PIF));
245 assert(approxEqual(toPrec!double(PIR), PID));
246 assert(approxEqual(toPrec!real(PIR), PIR));
|
| /dports/misc/cxx_atomics_pic/gcc-11.2.0/libphobos/libdruntime/core/ |
| H A D | math.d | 246 enum real PIR = 0xc.90fdaa22168c235p-2; variable
249 static assert(approxEqual(toPrec!float(PIR), PIF));
250 static assert(approxEqual(toPrec!double(PIR), PID));
251 static assert(approxEqual(toPrec!real(PIR), PIR));
259 assert(approxEqual(toPrec!float(PIR), PIF));
260 assert(approxEqual(toPrec!double(PIR), PID));
261 assert(approxEqual(toPrec!real(PIR), PIR));
|
| /dports/lang/parrot/parrot-8.1.0/docs/book/pir/ |
| H A D | ch03_basic_syntax.pod | 7 X<PIR syntax>
8 PIR has a relatively simple syntax. Every line is a comment, a label, a
18 =begin PIR
20 # This is a regular comment. The PIR
23 =end PIR
26 PIR also treats inline documentation in Pod format as a comment. An
33 comment. The PIR interpreter ignores this.
176 PIR also has named variables; the C<.local>
245 C<while>, PIR gives you the building blocks to construct your own.N<PIR has
281 =begin PIR
[all …]
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