17 |
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18 |
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19 |
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int |
20 |
< |
xf(ret, ac, av) /* get transform specification */ |
21 |
< |
register XF *ret; |
22 |
< |
int ac; |
23 |
< |
char *av[]; |
20 |
> |
xf(XF *ret, int ac, char *av[]) /* get transform specification */ |
21 |
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{ |
22 |
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MAT4 xfmat, m4; |
23 |
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double xfsca, dtmp; |
128 |
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129 |
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130 |
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int |
131 |
< |
invxf(ret, ac, av) /* invert transform specification */ |
135 |
< |
register XF *ret; |
136 |
< |
int ac; |
137 |
< |
char *av[]; |
131 |
> |
invxf(XF *ret, int ac, char *av[]) /* invert transform specification */ |
132 |
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{ |
133 |
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MAT4 xfmat, m4; |
134 |
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double xfsca, dtmp; |
239 |
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240 |
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241 |
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int |
242 |
< |
fullxf(fx, ac, av) /* compute both forward and inverse */ |
249 |
< |
FULLXF *fx; |
250 |
< |
int ac; |
251 |
< |
char *av[]; |
242 |
> |
fullxf(FULLXF *fx, int ac, char *av[]) /* compute both forward and inverse */ |
243 |
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{ |
244 |
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xf(&fx->f, ac, av); |
245 |
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return(invxf(&fx->b, ac, av)); |