| /dports/print/lilypond-devel/lilypond-2.23.5/flower/include/ |
| H A D | offset.hh | 49 (*this)[X_AXIS] += o[X_AXIS]; in operator +=()
58 o[X_AXIS] = -o[X_AXIS]; in operator -()
65 (*this)[X_AXIS] -= o[X_AXIS]; in operator -=()
73 (*this)[X_AXIS] *= o[X_AXIS]; in scale()
87 (*this)[X_AXIS] *= a; in operator *=()
95 coordinate_a_[X_AXIS] = ix; in Offset()
101 coordinate_a_[X_AXIS] = coordinate_a_[Y_AXIS] = 0.0; in Offset()
125 return Offset (-coordinate_a_[Y_AXIS], coordinate_a_[X_AXIS]); in normal()
176 return o1[X_AXIS] * o2[X_AXIS] + o1[Y_AXIS] * o2[Y_AXIS]; in dot_product()
183 return o1[X_AXIS] * o2[Y_AXIS] - o1[Y_AXIS] * o2[X_AXIS]; in cross_product()
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| /dports/print/lilypond/lilypond-2.22.1/flower/include/ |
| H A D | offset.hh | 49 (*this)[X_AXIS] += o[X_AXIS]; in operator +=()
58 o[X_AXIS] = -o[X_AXIS]; in operator -()
65 (*this)[X_AXIS] -= o[X_AXIS]; in operator -=()
73 (*this)[X_AXIS] *= o[X_AXIS]; in scale()
87 (*this)[X_AXIS] *= a; in operator *=()
95 coordinate_a_[X_AXIS] = ix; in Offset()
101 coordinate_a_[X_AXIS] = coordinate_a_[Y_AXIS] = 0.0; in Offset()
125 return Offset (-coordinate_a_[Y_AXIS], coordinate_a_[X_AXIS]); in normal()
176 return o1[X_AXIS] * o2[X_AXIS] + o1[Y_AXIS] * o2[Y_AXIS]; in dot_product()
183 return o1[X_AXIS] * o2[Y_AXIS] - o1[Y_AXIS] * o2[X_AXIS]; in cross_product()
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| /dports/print/lilypond-devel/lilypond-2.23.5/lily/ |
| H A D | box.cc | 25 for (const auto a : {X_AXIS, Y_AXIS}) in translate()
33 for (const auto a : {X_AXIS, Y_AXIS}) in unite()
40 return interval_a_[X_AXIS].length () in area()
51 interval_a_[X_AXIS].set_empty (); in set_empty()
58 return is_empty (X_AXIS) && is_empty (Y_AXIS); in is_empty()
91 interval_a_[X_AXIS] *= s; in scale()
98 interval_a_[X_AXIS].add_point (o[X_AXIS]); in add_point()
105 return Offset (interval_a_[X_AXIS].center (), in center()
112 interval_a_[X_AXIS].widen (x); in widen()
119 interval_a_[X_AXIS].intersect (b[X_AXIS]); in intersect()
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| H A D | enclosing-bracket.cc | 65 Grob *common_x = common_refpoint_of_array (elements, me, X_AXIS); in width()
66 Interval xext = Axis_group_interface::relative_group_extent (elements, common_x, X_AXIS); in width()
74 left_br.translate_axis (xext[LEFT], X_AXIS); in width()
75 right_br.translate_axis (xext[RIGHT], X_AXIS); in width()
78 left_br.translate_axis (-me->relative_coordinate (common_x, X_AXIS), X_AXIS); in width()
80 return to_scm (left_br.extent (X_AXIS)); in width()
95 Grob *common_x = common_refpoint_of_array (elements, me, X_AXIS); in print()
96 Interval xext = Axis_group_interface::relative_group_extent (elements, common_x, X_AXIS); in print()
109 left_br.translate_axis (xext[LEFT], X_AXIS); in print()
110 right_br.translate_axis (xext[RIGHT], X_AXIS); in print()
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| H A D | slur-scoring.cc | 125 ei.x_ = notecol->relative_coordinate (common_[X_AXIS], X_AXIS); in get_encompass_info()
134 Interval head_ext = head->extent (common_[X_AXIS], X_AXIS); in get_encompass_info()
142 ei.x_ = notecol->extent (common_[X_AXIS], X_AXIS).center (); in get_encompass_info()
160 Interval x = stem->extent (common_[X_AXIS], X_AXIS); in get_encompass_info()
162 ? stem->relative_coordinate (common_[X_AXIS], X_AXIS) in get_encompass_info()
553 = (fh ? fh->extent (common_[X_AXIS], X_AXIS) in get_base_attachments()
570 x = head->extent (common_[X_AXIS], X_AXIS)[-d]; in get_base_attachments()
587 common_[X_AXIS], X_AXIS); in get_base_attachments()
689 Interval xe = g->extent (common_[X_AXIS], X_AXIS); in generate_avoid_offsets()
730 os[d][X_AXIS] = base_attachments_[d][X_AXIS]; in enumerate_attachments()
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| H A D | lyric-extender.cc | 42 common = common->common_refpoint (right_text, X_AXIS); in print()
44 common = common->common_refpoint (me->get_bound (RIGHT), X_AXIS); in print()
45 common = common->common_refpoint (me->get_system (), X_AXIS); in print()
54 common = common_refpoint_of_array (heads, common, X_AXIS); in print()
58 left_point = left_edge->extent (common, X_AXIS)[RIGHT]; in print()
60 left_point = heads[0]->extent (common, X_AXIS)[LEFT]; in print()
62 left_point = left_edge->extent (common, X_AXIS)[RIGHT]; in print()
74 auto limit = rb->relative_coordinate (common, X_AXIS); in print()
80 auto limit = heads.back ()->extent (common, X_AXIS)[RIGHT]; in print()
103 auto limit = robust_relative_extent (rb, common, X_AXIS)[LEFT] in print()
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| H A D | ottava-bracket.cc | 55 X_AXIS); in print()
73 common = dots->common_refpoint (common, X_AXIS); in print()
102 ext.unite (h->extent (common, X_AXIS)); in print()
106 ext.unite (dots->extent (common, X_AXIS)); in print()
111 ext = robust_relative_extent (b, common, X_AXIS); in print()
128 Real text_size = text.extent (X_AXIS).is_empty () in print()
129 ? 0.0 : text.extent (X_AXIS)[RIGHT] + 0.3; in print()
172 b = Stencil (Box (b.extent (X_AXIS), in print()
176 b.translate_axis (bracket_span_points[LEFT], X_AXIS); in print()
177 text.translate_axis (span_points[LEFT], X_AXIS); in print()
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| H A D | side-position-interface.cc | 203 for (const auto ax : {X_AXIS, Y_AXIS}) in aligned_side()
240 if (a == X_AXIS) in aligned_side()
241 xc = me->parent_relative (common[X_AXIS], X_AXIS); in aligned_side()
245 xc = me->relative_coordinate (common[X_AXIS], X_AXIS); in aligned_side()
255 Real yc = a == X_AXIS in aligned_side()
259 copy.shift (a == X_AXIS ? yc : xc); in aligned_side()
260 copy.raise (a == X_AXIS ? xc : yc); in aligned_side()
303 ? e->parent_relative (common[X_AXIS], X_AXIS) in aligned_side()
304 : e->relative_coordinate (common[X_AXIS], X_AXIS); in aligned_side()
307 Real yc = a == X_AXIS in aligned_side()
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| H A D | dot-column.cc | 70 commonx = n->common_refpoint (commonx, X_AXIS); in calc_positioning_done()
74 commonx = stem->common_refpoint (commonx, X_AXIS); in calc_positioning_done()
88 base_x.unite (Stem::first_head (parent_stems[i])->extent (commonx, X_AXIS)); in calc_positioning_done()
103 base_x.unite (s->extent (commonx, X_AXIS)); in calc_positioning_done()
126 Box b (s->extent (commonx, X_AXIS), y); in calc_positioning_done()
142 Interval x = flag->extent (commonx, X_AXIS); in calc_positioning_done()
193 dots[i]->translate_axis (-dots[i]->relative_coordinate (me, X_AXIS), X_AXIS); in calc_positioning_done()
210 dp.x_extent_ = note->extent (commonx, X_AXIS); in calc_positioning_done()
232 me->translate_axis (cfg.x_offset () - me->relative_coordinate (commonx, X_AXIS), in calc_positioning_done()
233 X_AXIS); in calc_positioning_done()
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| H A D | lookup.cc | 50 points = scm_cons (to_scm (p[X_AXIS]), in beam()
58 points = scm_cons (to_scm (p[X_AXIS]), in beam()
66 points = scm_cons (to_scm (p[X_AXIS]), in beam()
74 points = scm_cons (to_scm (p[X_AXIS]), in beam()
109 box[X_AXIS] = w; in horizontal_line()
181 to_scm (-b[X_AXIS][LEFT]), in round_filled_box()
182 to_scm (b[X_AXIS][RIGHT]), in round_filled_box()
366 SCM x = to_scm (shrunk_points[i][X_AXIS]); in round_polygon()
390 for (const auto a : {X_AXIS, Y_AXIS}) in frame()
536 Interval x_extent = top_curve.extent (X_AXIS); in bezier_sandwich()
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| H A D | piano-pedal-bracket.cc | 47 ->common_refpoint (me->get_bound (RIGHT), X_AXIS); in print()
51 common = common->common_refpoint (textbit, X_AXIS); in print()
69 = Axis_group_interface::generic_bound_extent (b, common, X_AXIS)[RIGHT]; in print()
72 span_points[d] = b->relative_coordinate (common, X_AXIS); in print()
85 + robust_relative_extent (textbit, common, X_AXIS)[RIGHT]; in print()
96 - me->relative_coordinate (common, X_AXIS), X_AXIS); in print()
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| H A D | measure-grouping-spanner.cc | 39 X_AXIS); in print()
42 common, X_AXIS).center (); in print()
43 Real left_point = me->get_bound (LEFT)->relative_coordinate (common, X_AXIS); in print()
52 m = Lookup::bracket (X_AXIS, iv, t, -height, t); in print()
57 m.translate_axis (- me->relative_coordinate (common, X_AXIS), X_AXIS); in print()
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| /dports/print/lilypond/lilypond-2.22.1/lily/ |
| H A D | box.cc | 25 for (Axis i = X_AXIS; i < NO_AXES; incr (i)) in translate()
33 for (Axis i = X_AXIS; i < NO_AXES; incr (i)) in unite()
40 return interval_a_[X_AXIS].length () in area()
51 interval_a_[X_AXIS].set_empty (); in set_empty()
58 return is_empty (X_AXIS) && is_empty (Y_AXIS); in is_empty()
91 interval_a_[X_AXIS] *= s; in scale()
98 interval_a_[X_AXIS].add_point (o[X_AXIS]); in add_point()
105 return Offset (interval_a_[X_AXIS].center (), in center()
112 interval_a_[X_AXIS].widen (x); in widen()
119 interval_a_[X_AXIS].intersect (b[X_AXIS]); in intersect()
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| H A D | enclosing-bracket.cc | 65 Grob *common_x = common_refpoint_of_array (elements, me, X_AXIS); in width()
66 Interval xext = Axis_group_interface::relative_group_extent (elements, common_x, X_AXIS); in width()
74 left_br.translate_axis (xext[LEFT], X_AXIS); in width()
75 right_br.translate_axis (xext[RIGHT], X_AXIS); in width()
78 left_br.translate_axis (-me->relative_coordinate (common_x, X_AXIS), X_AXIS); in width()
80 return to_scm (left_br.extent (X_AXIS)); in width()
95 Grob *common_x = common_refpoint_of_array (elements, me, X_AXIS); in print()
96 Interval xext = Axis_group_interface::relative_group_extent (elements, common_x, X_AXIS); in print()
109 left_br.translate_axis (xext[LEFT], X_AXIS); in print()
110 right_br.translate_axis (xext[RIGHT], X_AXIS); in print()
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| H A D | slur-scoring.cc | 126 ei.x_ = notecol->relative_coordinate (common_[X_AXIS], X_AXIS); in get_encompass_info()
135 Interval head_ext = head->extent (common_[X_AXIS], X_AXIS); in get_encompass_info()
143 ei.x_ = notecol->extent (common_[X_AXIS], X_AXIS).center (); in get_encompass_info()
161 Interval x = stem->extent (common_[X_AXIS], X_AXIS); in get_encompass_info()
163 ? stem->relative_coordinate (common_[X_AXIS], X_AXIS) in get_encompass_info()
558 = (fh ? fh->extent (common_[X_AXIS], X_AXIS) in get_base_attachments()
575 x = head->extent (common_[X_AXIS], X_AXIS)[-d]; in get_base_attachments()
592 common_[X_AXIS], X_AXIS); in get_base_attachments()
693 Interval xe = g->extent (common_[X_AXIS], X_AXIS); in generate_avoid_offsets()
734 os[d][X_AXIS] = base_attachments_[d][X_AXIS]; in enumerate_attachments()
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| H A D | lyric-extender.cc | 42 common = common->common_refpoint (right_text, X_AXIS); in print()
44 common = common->common_refpoint (me->get_bound (RIGHT), X_AXIS); in print()
45 common = common->common_refpoint (me->get_system (), X_AXIS); in print()
54 common = common_refpoint_of_array (heads, common, X_AXIS); in print()
58 left_point = left_edge->extent (common, X_AXIS)[RIGHT]; in print()
60 left_point = heads[0]->extent (common, X_AXIS)[LEFT]; in print()
62 left_point = left_edge->extent (common, X_AXIS)[RIGHT]; in print()
73 …std::min (right_point, me->get_system ()->get_bound (RIGHT)->relative_coordinate (common, X_AXIS)); in print()
76 right_point = std::max (right_point, heads.back ()->extent (common, X_AXIS)[RIGHT]); in print()
98 mol.translate_axis (left_point - me->relative_coordinate (common, X_AXIS), in print()
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| H A D | ottava-bracket.cc | 66 common = common_refpoint_of_array (heads, common, X_AXIS); in print()
72 common = dots->common_refpoint (common, X_AXIS); in print()
102 ext.unite (h->extent (common, X_AXIS)); in print()
106 ext.unite (dots->extent (common, X_AXIS)); in print()
111 ext = robust_relative_extent (b, common, X_AXIS); in print()
128 Real text_size = text.extent (X_AXIS).is_empty () in print()
129 ? 0.0 : text.extent (X_AXIS)[RIGHT] + 0.3; in print()
172 b = Stencil (Box (b.extent (X_AXIS), in print()
176 b.translate_axis (bracket_span_points[LEFT], X_AXIS); in print()
177 text.translate_axis (span_points[LEFT], X_AXIS); in print()
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| H A D | dot-column.cc | 68 commonx = n->common_refpoint (commonx, X_AXIS); in calc_positioning_done()
72 commonx = stem->common_refpoint (commonx, X_AXIS); in calc_positioning_done()
86 base_x.unite (Stem::first_head (parent_stems[i])->extent (commonx, X_AXIS)); in calc_positioning_done()
101 base_x.unite (s->extent (commonx, X_AXIS)); in calc_positioning_done()
124 Box b (s->extent (commonx, X_AXIS), y); in calc_positioning_done()
140 Interval x = flag->extent (commonx, X_AXIS); in calc_positioning_done()
191 dots[i]->translate_axis (-dots[i]->relative_coordinate (me, X_AXIS), X_AXIS); in calc_positioning_done()
208 dp.x_extent_ = note->extent (commonx, X_AXIS); in calc_positioning_done()
229 me->translate_axis (cfg.x_offset () - me->relative_coordinate (commonx, X_AXIS), in calc_positioning_done()
230 X_AXIS); in calc_positioning_done()
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| H A D | side-position-interface.cc | 238 if (a == X_AXIS) in aligned_side()
239 xc = me->parent_relative (common[X_AXIS], X_AXIS); in aligned_side()
243 xc = me->relative_coordinate (common[X_AXIS], X_AXIS); in aligned_side()
253 Real yc = a == X_AXIS in aligned_side()
257 copy.shift (a == X_AXIS ? yc : xc); in aligned_side()
258 copy.raise (a == X_AXIS ? xc : yc); in aligned_side()
301 ? e->parent_relative (common[X_AXIS], X_AXIS) in aligned_side()
302 : e->relative_coordinate (common[X_AXIS], X_AXIS); in aligned_side()
305 Real yc = a == X_AXIS in aligned_side()
443 (a == X_AXIS) in set_axis()
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| H A D | lookup.cc | 51 points = scm_cons (to_scm (p[X_AXIS]), in beam()
59 points = scm_cons (to_scm (p[X_AXIS]), in beam()
67 points = scm_cons (to_scm (p[X_AXIS]), in beam()
75 points = scm_cons (to_scm (p[X_AXIS]), in beam()
110 box[X_AXIS] = w; in horizontal_line()
182 to_scm (-b[X_AXIS][LEFT]), in round_filled_box()
183 to_scm (b[X_AXIS][RIGHT]), in round_filled_box()
366 SCM x = to_scm (shrunk_points[i][X_AXIS]); in round_filled_polygon()
535 Interval x_extent = top_curve.extent (X_AXIS); in bezier_sandwich()
536 x_extent.unite (bottom_curve.extent (X_AXIS)); in bezier_sandwich()
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| H A D | piano-pedal-bracket.cc | 47 ->common_refpoint (me->get_bound (RIGHT), X_AXIS); in print()
51 common = common->common_refpoint (textbit, X_AXIS); in print()
69 = Axis_group_interface::generic_bound_extent (b, common, X_AXIS)[RIGHT]; in print()
72 span_points[d] = b->relative_coordinate (common, X_AXIS); in print()
85 + robust_relative_extent (textbit, common, X_AXIS)[RIGHT]; in print()
96 - me->relative_coordinate (common, X_AXIS), X_AXIS); in print()
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| H A D | measure-grouping-spanner.cc | 39 X_AXIS); in print()
42 common, X_AXIS).linear_combination (CENTER); in print()
43 Real left_point = me->get_bound (LEFT)->relative_coordinate (common, X_AXIS); in print()
52 m = Lookup::bracket (X_AXIS, iv, t, -height, t); in print()
57 m.translate_axis (- me->relative_coordinate (common, X_AXIS), X_AXIS); in print()
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| /dports/print/lilypond/lilypond-2.22.1/flower/ |
| H A D | offset.cc | 34 s = string (" (") + std::to_string (coordinate_a_[X_AXIS]) + ", " in to_string()
50 z[X_AXIS] = z1[X_AXIS] * z2[X_AXIS] - z1[Y_AXIS] * z2[Y_AXIS]; in complex_multiply()
51 z[Y_AXIS] = z1[X_AXIS] * z2[Y_AXIS] + z1[Y_AXIS] * z2[X_AXIS]; in complex_multiply()
65 Real x = coordinate_a_ [X_AXIS]; in angle_degrees()
122 return hypot (coordinate_a_[X_AXIS], coordinate_a_[Y_AXIS]); in length()
128 return !std::isnan (coordinate_a_[X_AXIS]) in is_sane()
130 && !std::isinf (coordinate_a_[X_AXIS]) in is_sane()
138 if (std::isinf (d[X_AXIS])) in direction()
141 return Offset ((d[X_AXIS] > 0.0 ? 1.0 : -1.0), 0.0); in direction()
145 else if (d[X_AXIS] == 0.0 && d[Y_AXIS] == 0.0) in direction()
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| /dports/print/lilypond-devel/lilypond-2.23.5/flower/ |
| H A D | offset.cc | 34 s = string (" (") + std::to_string (coordinate_a_[X_AXIS]) + ", " in to_string()
50 z[X_AXIS] = z1[X_AXIS] * z2[X_AXIS] - z1[Y_AXIS] * z2[Y_AXIS]; in complex_multiply()
51 z[Y_AXIS] = z1[X_AXIS] * z2[Y_AXIS] + z1[Y_AXIS] * z2[X_AXIS]; in complex_multiply()
65 Real x = coordinate_a_ [X_AXIS]; in angle_degrees()
122 return hypot (coordinate_a_[X_AXIS], coordinate_a_[Y_AXIS]); in length()
128 return !std::isnan (coordinate_a_[X_AXIS]) in is_sane()
130 && !std::isinf (coordinate_a_[X_AXIS]) in is_sane()
138 if (std::isinf (d[X_AXIS])) in direction()
141 return Offset ((d[X_AXIS] > 0.0 ? 1.0 : -1.0), 0.0); in direction()
145 else if (d[X_AXIS] == 0.0 && d[Y_AXIS] == 0.0) in direction()
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| /dports/misc/openvdb/openvdb-9.0.0/openvdb/openvdb/unittest/ |
| H A D | TestPrePostAPI.cc | 32 m.preRotate(X_AXIS, 20); in TEST_F()
33 m.preShear(X_AXIS, Y_AXIS, 2); in TEST_F()
39 minv.postRotate(X_AXIS,-20); in TEST_F()
40 minv.postShear(X_AXIS, Y_AXIS, -2); in TEST_F()
84 shear.preShear(Y_AXIS, X_AXIS, 3.0); in TEST_F()
89 mpre.preRotate(X_AXIS, angle1); in TEST_F()
97 mpost.postRotate(X_AXIS, angle1); in TEST_F()
482 m.preRotate(X_AXIS, 20); in TEST_F()
495 minv.postRotate(X_AXIS,-20); in TEST_F()
610 m.preRotate(X_AXIS, 20); in TEST_F()
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