File Coverage

pp-Ceq.c

Criterion	Covered	Total	%
statement	38	45	84.4
branch	51	132	38.6
condition			n/a
subroutine			n/a
pod			n/a
total	89	177	50.2

line	stmt	bran	code
1
2			#line 453 "lib/PDL/PP.pm"
3			/*
4			* THIS FILE WAS GENERATED BY PDL::PP from complex.pd! Do not modify!
5			*/
6
7			#define PDL_FREE_CODE(trans, destroy, comp_free_code, ntpriv_free_code) \
8			if (destroy) { \
9			comp_free_code \
10			} \
11			if ((trans)->dims_redone) { \
12			ntpriv_free_code \
13			}
14
15			#include "EXTERN.h"
16			#include "perl.h"
17			#include "XSUB.h"
18			#include "pdl.h"
19			#include "pdlcore.h"
20			#define PDL PDL_Complex
21			extern Core* PDL; /* Structure hold core C functions */
22			#line 23 "pp-Ceq.c"
23
24			#include
25
26			#ifndef M_PI
27			# define M_PI 3.1415926535897932384626433832795029
28			#endif
29			#ifndef M_2PI
30			# define M_2PI (2. * M_PI)
31			#endif
32
33			#if __GLIBC__ > 1 && (defined __USE_MISC \|\| defined __USE_XOPEN \|\| defined __USE_ISOC9X)
34			# define CABS(r,i) hypot (r, i)
35			#else
36			static double
37			CABS (double r, double i)
38			{
39			double t;
40
41			if (r < 0) r = - r;
42			if (i < 0) i = - i;
43
44			if (i > r)
45			{
46			t = r; r = i; i = t;
47			}
48
49			if (r + i == r)
50			return r;
51
52			t = i / r;
53			return r * sqrt (1 + t*t);
54			}
55			#endif
56
57			#if __GLIBC__ >= 2 && __GLIBC_MINOR__ >= 1 && defined __USE_GNU
58			# define SINCOS(x,s,c) sincos ((x), &(s), &(c))
59			#else
60			# define SINCOS(x,s,c) \
61			(s) = sin (x); \
62			(c) = cos (x);
63			#endif
64
65
66			#define CSQRT(type,ar,ai,cr,ci) \
67			type mag = CABS ((ar), (ai)); \
68			type t; \
69			\
70			if (mag == 0) \
71			(cr) = (ci) = 0; \
72			else if ((ar) > 0) \
73			{ \
74			t = sqrt (0.5 * (mag + (ar))); \
75			(cr) = t; \
76			(ci) = 0.5 * (ai) / t; \
77			} \
78			else \
79			{ \
80			t = sqrt (0.5 * (mag - (ar))); \
81			\
82			if ((ai) < 0) \
83			t = -t; \
84			\
85			(cr) = 0.5 * (ai) / t; \
86			(ci) = t; \
87			}
88
89
90			#define CLOG(ar,ai,cr,ci) \
91			(cr) = log (CABS ((ar), (ai))); \
92			(ci) = atan2 ((ai), (ar));
93
94
95			#line 1857 "lib/PDL/PP.pm"
96			pdl_error pdl_Ceq_redodims(pdl_trans *__privtrans) {
97			pdl_error PDL_err = {0, NULL, 0};
98			#line 99 "pp-Ceq.c"
99	8		__privtrans->ind_sizes[0] = 2;
100	8	50	PDL_RETERROR(PDL_err, PDL->redodims_default(__privtrans));
101	8		return PDL_err;
102			}
103
104
105			#line 1857 "lib/PDL/PP.pm"
106			pdl_error pdl_Ceq_readdata(pdl_trans *__privtrans) {
107			pdl_error PDL_err = {0, NULL, 0};
108			#line 109 "pp-Ceq.c"
109	8	50	if (!__privtrans->broadcast.incs) return PDL->make_error(PDL_EUSERERROR, "Error in Ceq:" "broadcast.incs NULL");
110			/* broadcastloop declarations */
111			int __brcloopval;
112			register PDL_Indx __tind0,__tind1; /* counters along dim */
113	8		register PDL_Indx __tnpdls = __privtrans->broadcast.npdls;
114			/* dims here are how many steps along those dims */
115	8		register PDL_Indx __tinc0_a = PDL_BRC_INC(__privtrans->broadcast.incs,__tnpdls,0,0);
116	8		register PDL_Indx __tinc0_b = PDL_BRC_INC(__privtrans->broadcast.incs,__tnpdls,1,0);
117	8		register PDL_Indx __tinc0_c = PDL_BRC_INC(__privtrans->broadcast.incs,__tnpdls,2,0);
118	8		register PDL_Indx __tinc1_a = PDL_BRC_INC(__privtrans->broadcast.incs,__tnpdls,0,1);
119	8		register PDL_Indx __tinc1_b = PDL_BRC_INC(__privtrans->broadcast.incs,__tnpdls,1,1);
120	8		register PDL_Indx __tinc1_c = PDL_BRC_INC(__privtrans->broadcast.incs,__tnpdls,2,1);
121			#define PDL_BROADCASTLOOP_START_Ceq_readdata PDL_BROADCASTLOOP_START( \
122			readdata, \
123			__privtrans->broadcast, \
124			__privtrans->vtable, \
125			a_datap += __offsp[0]; \
126			b_datap += __offsp[1]; \
127			c_datap += __offsp[2]; \
128			, \
129			( ,a_datap += __tinc1_a - __tinc0_a * __tdims0 \
130			,b_datap += __tinc1_b - __tinc0_b * __tdims0 \
131			,c_datap += __tinc1_c - __tinc0_c * __tdims0 \
132			), \
133			( ,a_datap += __tinc0_a \
134			,b_datap += __tinc0_b \
135			,c_datap += __tinc0_c \
136			) \
137			)
138			#define PDL_BROADCASTLOOP_END_Ceq_readdata PDL_BROADCASTLOOP_END( \
139			__privtrans->broadcast, \
140			a_datap -= __tinc1_a * __tdims1 + __offsp[0]; \
141			b_datap -= __tinc1_b * __tdims1 + __offsp[1]; \
142			c_datap -= __tinc1_c * __tdims1 + __offsp[2]; \
143			)
144	8		register PDL_Indx __inc_a_m = __privtrans->inc_sizes[PDL_INC_ID(__privtrans->vtable,0,0)]; (void)__inc_a_m;
145	8		register PDL_Indx __inc_b_m = __privtrans->inc_sizes[PDL_INC_ID(__privtrans->vtable,1,0)]; (void)__inc_b_m;
146			#ifndef PDL_DECLARE_PARAMS_Ceq_1
147			#define PDL_DECLARE_PARAMS_Ceq_1(PDL_TYPE_OP,PDL_PPSYM_OP) \
148			PDL_DECLARE_PARAMETER(PDL_TYPE_OP, a, (__privtrans->pdls[0]), 1, PDL_PPSYM_OP) \
149			PDL_DECLARE_PARAMETER(PDL_TYPE_OP, b, (__privtrans->pdls[1]), 1, PDL_PPSYM_OP) \
150			PDL_DECLARE_PARAMETER(PDL_TYPE_OP, c, (__privtrans->pdls[2]), 1, PDL_PPSYM_OP)
151			#endif
152			#define PDL_IF_BAD(t,f) f
153	8		switch (__privtrans->__datatype) { /* Start generic switch */
154	0		case PDL_F: {
155	0	0	PDL_DECLARE_PARAMS_Ceq_1(PDL_Float,F)
		0
		0
		0
		0
		0
		0
		0
		0
156	0	0	PDL_BROADCASTLOOP_START_Ceq_readdata {
		0
		0
		0
		0
		0
		0
157	0	0	(c_datap)[0] = (((a_datap)[0+(__inc_a_m(0))] == (b_datap)[0+(__inc_b_m(0))]) && ((a_datap)[0+(__inc_a_m(1))] == (b_datap)[0+(__inc_b_m(1))]));
		0
158	0	0	}PDL_BROADCASTLOOP_END_Ceq_readdata
		0
159	0		} break;
160	6		case PDL_D: {
161	6	50	PDL_DECLARE_PARAMS_Ceq_1(PDL_Double,D)
		50
		50
		50
		50
		50
		50
		50
		50
162	24	50	PDL_BROADCASTLOOP_START_Ceq_readdata {
		50
		50
		50
		50
		100
		100
163	6	50	(c_datap)[0] = (((a_datap)[0+(__inc_a_m(0))] == (b_datap)[0+(__inc_b_m(0))]) && ((a_datap)[0+(__inc_a_m(1))] == (b_datap)[0+(__inc_b_m(1))]));
		50
164	6	50	}PDL_BROADCASTLOOP_END_Ceq_readdata
		50
165	6		} break;
166	2		case PDL_LD: {
167	2	50	PDL_DECLARE_PARAMS_Ceq_1(PDL_LDouble,E)
		50
		50
		50
		50
		50
		50
		50
		50
168	8	50	PDL_BROADCASTLOOP_START_Ceq_readdata {
		50
		50
		50
		50
		100
		100
169	2	100	(c_datap)[0] = (((a_datap)[0+(__inc_a_m(0))] == (b_datap)[0+(__inc_b_m(0))]) && ((a_datap)[0+(__inc_a_m(1))] == (b_datap)[0+(__inc_b_m(1))]));
		50
170	2	50	}PDL_BROADCASTLOOP_END_Ceq_readdata
		50
171	2		} break;
172	0		default: return PDL->make_error(PDL_EUSERERROR, "PP INTERNAL ERROR in Ceq: unhandled datatype(%d), only handles (FDE)! PLEASE MAKE A BUG REPORT\n", __privtrans->__datatype);
173			}
174			#undef PDL_IF_BAD
175	8		return PDL_err;
176			}
177
178			static pdl_datatypes pdl_Ceq_vtable_gentypes[] = { PDL_F, PDL_D, PDL_LD, -1 };
179			static PDL_Indx pdl_Ceq_vtable_realdims[] = { 1, 1, 0 };
180			static char *pdl_Ceq_vtable_parnames[] = { "a","b","c" };
181			static short pdl_Ceq_vtable_parflags[] = {
182			0,
183			0,
184			PDL_PARAM_ISCREAT\|PDL_PARAM_ISOUT\|PDL_PARAM_ISWRITE
185			};
186			static pdl_datatypes pdl_Ceq_vtable_partypes[] = { -1, -1, -1 };
187			static PDL_Indx pdl_Ceq_vtable_realdims_starts[] = { 0, 1, 2 };
188			static PDL_Indx pdl_Ceq_vtable_realdims_ind_ids[] = { 0, 0 };
189			static char *pdl_Ceq_vtable_indnames[] = { "m" };
190			pdl_transvtable pdl_Ceq_vtable = {
191			PDL_TRANS_DO_BROADCAST, 0, pdl_Ceq_vtable_gentypes, 2, 3, NULL /CORE21/,
192			pdl_Ceq_vtable_realdims, pdl_Ceq_vtable_parnames,
193			pdl_Ceq_vtable_parflags, pdl_Ceq_vtable_partypes,
194			pdl_Ceq_vtable_realdims_starts, pdl_Ceq_vtable_realdims_ind_ids, 2,
195			1, pdl_Ceq_vtable_indnames,
196			pdl_Ceq_redodims, pdl_Ceq_readdata, NULL,
197			NULL,
198			0,"PDL::Complex::Ceq"
199			};
200
201
202	8		pdl_error pdl_run_Ceq(pdl a,pdl b,pdl *c) {
203	8		pdl_error PDL_err = {0, NULL, 0};
204	8	50	if (!PDL) return (pdl_error){PDL_EFATAL, "PDL core struct is NULL, can't continue",0};
205	8		pdl_trans *__privtrans = PDL->create_trans(&pdl_Ceq_vtable);
206	8	50	if (!__privtrans) return PDL->make_error_simple(PDL_EFATAL, "Couldn't create trans");
207	8		__privtrans->pdls[0] = a;
208	8		__privtrans->pdls[1] = b;
209	8		__privtrans->pdls[2] = c;
210	8	50	PDL_RETERROR(PDL_err, PDL->type_coerce(__privtrans));
211	8	50	PDL_RETERROR(PDL_err, PDL->make_trans_mutual(__privtrans));
212	8		return PDL_err;
213			}