diff options
author | Akira Kakuto <kakuto@fuk.kindai.ac.jp> | 2017-02-13 23:20:50 +0000 |
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committer | Akira Kakuto <kakuto@fuk.kindai.ac.jp> | 2017-02-13 23:20:50 +0000 |
commit | 5ba4c6ad88ac9e5f0da49a9f49da7421ea86a325 (patch) | |
tree | 703d11b18ea2dc1fb3e951505822f4f995197a79 /Build | |
parent | 10dc77f8bf86bf3f2916190ad90abca92754d5c2 (diff) |
mplibdir: sync with the upstream
git-svn-id: svn://tug.org/texlive/trunk@43216 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Build')
-rw-r--r-- | Build/source/texk/web2c/mplibdir/mp.w | 219 |
1 files changed, 10 insertions, 209 deletions
diff --git a/Build/source/texk/web2c/mplibdir/mp.w b/Build/source/texk/web2c/mplibdir/mp.w index 75b67de6e92..25b259ea094 100644 --- a/Build/source/texk/web2c/mplibdir/mp.w +++ b/Build/source/texk/web2c/mplibdir/mp.w @@ -1,4 +1,4 @@ -% $Id: mp.w 2115 2017-02-01 13:56:12Z luigi $ +% $Id: mp.w 2117 2017-02-13 18:31:00Z luigi $ % % This file is part of MetaPost; % the MetaPost program is in the public domain. @@ -140,7 +140,7 @@ typedef struct MP_instance { #endif @ @c -/*#define DEBUGENVELOPE */ +/*\#define DEBUGENVELOPE */ #ifdef DEBUGENVELOPE static int DEBUGENVELOPECOUNTER=0; #define dbg_str(A) printf("\n--[==[%03d DEBUGENVELOPE ]==] %s", DEBUGENVELOPECOUNTER++, #A) @@ -215,7 +215,7 @@ most compilers understand the non-debug version. @^system dependencies@> @<MPlib internal header stuff@>= -/*#define DEBUG 2*/ +/*\#define DEBUG 2*/ #if DEBUG #define debug_number(A) printf("%d: %s=%.32f (%d)\n", __LINE__, #A, number_to_double(A), number_to_scaled(A)) #else @@ -13198,85 +13198,6 @@ for cubic curve |B(t)| given by |p|,|c1|,|c2|,|q| and it's used for |t| near 0 and |t| near 1. We use double mode, otherwise we have to take care of overflow. -@<Declarations@>= -/* static void mp_dx_dy_approx(MP mp, mp_number *dx_ap, mp_number *dy_ap,mp_knot p, mp_knot q,mp_number t); */ - - @ @c -/* static void mp_dx_dy_approx(MP mp, mp_number *dx_ap, mp_number *dy_ap,mp_knot kp, mp_knot kq,mp_number t) { /\* find dx dy at |t| *\/ */ - -/* /\* 1/3 B'(t) = (-p + (3c1 + (-3c2 + q)))t^2 + (2p + (-4c1 + 2c2))t + (-p + c1) *\/ */ -/* /\* 1/3 B'(u) = (p + (-3*c1 + (3c2 - q)))*u^2 + (2c1 + (-4c2 + 2q))u + (c2 - q) *\/ */ - -/* mp_number absval; */ -/* mp_number max_coef; /\* used while scaling *\/ */ -/* mp_number small_nr, big_nr; */ -/* mp_number abs_dx, abs_dy; */ - -/* double p,c1,c2,q,dt,s1; */ -/* new_number (absval); */ -/* new_number(max_coef); */ -/* new_number(small_nr); */ -/* new_number(big_nr); */ -/* new_number(abs_dx); */ -/* new_number(abs_dy); */ - -/* set_number_from_double(small_nr,0.001); */ -/* set_number_from_double(big_nr,1000); */ - -/* dt = number_to_double(t); */ - -/* p = number_to_double(kp->x_coord); */ -/* c1 = number_to_double(kp->right_x); */ -/* c2 = number_to_double(kq->left_x); */ -/* q = number_to_double(kq->x_coord); */ - -/* s1 = (-p + (3*c1 + (-3*c2 + q)))*(dt*dt) + (2*p + (-4*c1 + 2*c2))*dt + (-p + c1); */ -/* set_number_from_double(*dx_ap,s1); */ - - -/* p = number_to_double(kp->y_coord); */ -/* c1 = number_to_double(kp->right_y); */ -/* c2 = number_to_double(kq->left_y); */ -/* q = number_to_double(kq->y_coord); */ - -/* s1 = (-p + (3*c1 + (-3*c2 + q)))*(dt*dt) + (2*p + (-4*c1 + 2*c2))*dt + (-p + c1); */ -/* set_number_from_double(*dy_ap,s1); */ - - -/* if (!number_zero(*dx_ap) || !number_zero(*dy_ap)) { */ -/* number_clone(absval, *dx_ap); */ -/* number_abs(absval); */ -/* number_clone(max_coef, *dy_ap); */ -/* number_abs (max_coef); */ -/* if (number_greater(absval, max_coef)) { */ -/* number_clone(max_coef, absval); */ -/* } */ -/* while (number_less(max_coef, fraction_half_t)) { */ -/* number_double (max_coef); */ -/* number_double (*dx_ap); */ -/* number_double (*dy_ap); */ -/* } */ -/* number_clone(abs_dx,*dx_ap); */ -/* number_clone(abs_dy,*dy_ap); */ -/* number_abs(abs_dx); */ -/* number_abs(abs_dy); */ -/* /\* This is an experimental approximation *\/ */ -/* if (number_greaterequal(abs_dy,big_nr) && number_lessequal(abs_dx,small_nr)) { */ -/* set_number_to_zero(*dx_ap); */ -/* } */ -/* if (number_greaterequal(abs_dx,big_nr) && number_lessequal(abs_dy,small_nr)) { */ -/* set_number_to_zero(*dy_ap); */ -/* } */ -/* } */ - -/* free_number(absval); */ -/* free_number(max_coef); */ -/* free_number(small_nr); */ -/* free_number(big_nr); */ -/* free_number(abs_dx); */ -/* free_number(abs_dy); */ - -/* } */ @ @c static mp_knot mp_offset_prep (MP mp, mp_knot c, mp_knot h) { @@ -13992,7 +13913,6 @@ if (p == c) { number_clone(dy0, dy); } /* BEGIN PATCH */ -/* set_number_from_substraction(ueps_ap,unity_t,epsilon_t); /\* |1-eps| *\/ */ #ifdef DEBUGENVELOPE dbg_nl;dbg_key(mp_dx_dy_approx_t_1);dbg_open_t;dbg_nl; dbg_n(ueps_ap); @@ -14001,13 +13921,10 @@ dbg_n(p->right_x);dbg_n(p->right_y); dbg_n(q->left_x);dbg_n(q->left_y); dbg_n(q->x_coord);dbg_n(q->y_coord); #endif -/* mp_dx_dy_approx(mp,&dxin_ap,&dyin_ap,p,q,ueps_ap); */ #ifdef DEBUGENVELOPE dbg_n(dxin_ap);dbg_n(dyin_ap); dbg_close_t;dbg_comma;dbg_nl; #endif -/**/ -/* number_clone(ueps_ap,epsilon_t); */ #ifdef DEBUGENVELOPE dbg_nl;dbg_key(mp_dx_dy_approx_t_0);dbg_open_t;dbg_nl; dbg_n(ueps_ap); @@ -14016,51 +13933,17 @@ dbg_n(p->right_x);dbg_n(p->right_y); dbg_n(q->left_x);dbg_n(q->left_y); dbg_n(q->x_coord);dbg_n(q->y_coord); #endif -/* mp_dx_dy_approx(mp,&dx_ap,&dy_ap,p,q,ueps_ap); /\*|eps|*\/ */ #ifdef DEBUGENVELOPE dbg_close_t;dbg_comma;dbg_nl; dbg_key(derivatives);dbg_open_t;dbg_nl; dbg_n(dx_m);dbg_n(dy_m); dbg_n(dx);dbg_n(dy);dbg_n(dx_ap);dbg_n(dy_ap);dbg_close_t;dbg_comma;dbg_nl; #endif -/* BEGIN PATCH */ -/* it should be done also for dy */ -/* TODO: if |p==c| we have also to set dx0 dy0 */ -/* if (number_zero(dx) && !(number_zero(dy)) && number_zero(x0) && number_zero(x2) && !number_zero(dxin) ){ */ -/* number_clone(dx_m, epsilon_t); */ -/* if (number_positive(x1)){ */ -/* /\*set_number_from_addition (dx, dx, epsilon_t); *\/ */ -/* /\*mp_warn(mp,"x component of the derivative at t=0 approximated to epsilon.");*\/ */ -/* } else if (number_negative(x1)) { */ -/* /\* set_number_from_substraction (dx, dx, epsilon_t); *\/ */ -/* /\* mp_warn(mp,"x component of the derivative at t=0 approximated to -epsilon.");*\/ */ -/* } */ -/* } */ #ifdef DEBUGENVELOPE dbg_key(derivatives after first patch );dbg_open_t;dbg_nl; dbg_n(dx_m);dbg_n(dy_m); dbg_n(dx);dbg_n(dy);dbg_n(dx_ap);dbg_n(dy_ap);dbg_close_t;dbg_comma;dbg_nl; #endif -/* this patch can conflict with the previous one */ -/* hm what about dx=dy=0 ? */ -/* if (number_zero(dx_ap) && !number_zero(dx) && number_zero(dx_m) ){ */ -/* /\* set_number_to_zero(dx); */ -/* set_number_from_substraction(dx_m, zero_t,epsilon_t); */ -/* if (p == c) { */ -/* set_number_to_zero(dx0); */ -/* } */ -/* *\/ */ -/* /\*mp_warn(mp,"x component of the derivative at t=0 approximated to zero.");*\/ */ -/* } */ -/* if (number_zero(dy_ap) && !number_zero(dy) && number_zero(dy_m)){ */ -/* /\* set_number_to_zero(dy); */ -/* set_number_from_substraction(dy_m, zero_t,epsilon_t); */ -/* if (p == c) { */ -/* set_number_to_zero(dy0); */ -/* } */ -/* *\/ */ -/* /\*mp_warn(mp,"y component of the derivative at t=0 approximated to zero.");*\/ */ -/* } */ #ifdef DEBUGENVELOPE dbg_key(derivatives patched);dbg_open_t;dbg_nl; dbg_n(dx_m);dbg_n(dy_m); @@ -14070,7 +13953,6 @@ dbg_n(dx);dbg_n(dy);dbg_n(dx_ap);dbg_n(dy_ap);dbg_close_t;dbg_comma;dbg_nl; @ @<Find the final direction |(dxin,dyin)|@>= -/* number_clone(dxin_m, zero_t); */ number_clone(dxin, x2); number_clone(dyin, y2); if (number_zero(dxin) && number_zero(dyin)) { @@ -14086,48 +13968,12 @@ dbg_key(dxin dyin before);dbg_open_t;dbg_nl; dbg_n(dxin);dbg_n(dyin); dbg_close_t;dbg_comma; #endif -/* BEGIN PATCH */ -/* if (number_zero(dxin_ap) && !number_zero(dxin)){ */ -/* /\* set_number_to_zero(dxin);*\/ */ -/* /\* mp_warn(mp,"x component of the derivative at t=1 approximated to zero.");*\/ */ -/* } */ -/* if (number_zero(dyin_ap) && !number_zero(dyin)){ */ -/* /\* set_number_to_zero(dyin);*\/ */ -/* /\* mp_warn(mp,"y component of the derivative at t=1 approximated to zero.");*\/ */ -/* } */ -/* END PATCH */ #ifdef DEBUGENVELOPE dbg_key(dxin dyin after);dbg_open_t;dbg_nl; dbg_n(dxin);dbg_n(dyin); dbg_close_t;dbg_comma; #endif -/* BEGIN PATCH \par -$ 1/3 B'(t,X_0,X_1,X_2) = (1-t)^2X_0+2(1-t)tX_1+3t^2X_2 $ \par -$ 1/3 B'(t,X_0,X_1,X_2) = (X_0 + (-2X_1 + X_2))t^2 + (-2X_0 + 2X_1)t + X_0 $ \par -$ 1/3 B'(s,0,X_1,0) = (-2s^2 + 2s)X_1 \approx 2sX_1 $ for $s\rightarrow 0$ \par -$ 1/3 B'(1-s,0,X_1,0) = (-2s^2 + 2s)X_1 \approx 2sX_1 $ for $s\rightarrow 0$ $\par -*/ -/* Of course the same should be done for dy and dyin */ -/* -if ( ((number_zero(dx) && number_positive(dx_m)) && number_positive(dy)) && - (number_zero(dxin) && number_positive(dyin)) ){ - number_clone(dx_m, epsilon_t); - number_clone(dxin_m, epsilon_t); - if (number_positive(x1)){ - set_number_from_addition (dxin, dxin, epsilon_t); - set_number_from_addition (dx, dx, epsilon_t); - } else if (number_negative(x1)) { - set_number_from_substraction (dxin, dxin, epsilon_t); - set_number_from_substraction (dx, dx, epsilon_t); - } else if (number_positive(x0)) { - set_number_from_addition (dxin, dxin, epsilon_t); - set_number_from_addition (dx, dx, epsilon_t); - } else if (number_negative(x0)) { - set_number_from_substraction (dxin, dxin, epsilon_t); - set_number_from_substraction (dx, dx, epsilon_t); - } -} -*/ +/* BEGIN PATCH */ #ifdef DEBUGENVELOPE dbg_key(dx dy dxin dyin after patch);dbg_open_t;dbg_nl; dbg_n(dx);dbg_n(dy);dbg_n(dx_ap);dbg_n(dy_ap); @@ -14230,24 +14076,6 @@ integer mp_get_turn_amt (MP mp, mp_knot w, mp_number dx, mp_number dy, boolean c dbg_in(number_zero(dy) && number_zero(arg2) && number_positive(dx) && number_negative(arg1)); dbg_nl; #endif - /* BEGIN PATCH */ -/* - if (number_zero(dx) && number_zero(arg1) && number_positive(dy) && number_positive(arg2) && is_dxdy) - break; - if (is_dxdy && number_zero(dx) && number_zero(arg1) && number_negative(dy) && number_negative(arg2) && number_positive(dyin_ap)) - break; - if (is_dxindyin && number_zero(dx) && number_zero(arg1) && number_positive(dy) && number_positive(arg2) && number_negative(dyin_ap)) - break; - if (number_zero(dx) && number_zero(arg1) && number_negative(dy) && number_negative(arg2) && !(is_dxdy)) - break; - if (number_zero(dy) && number_zero(arg2) && number_negative(dx) && number_negative(arg1)) - break; - if (number_zero(dx) && number_zero(arg1) && number_negative(dy) && number_positive(arg2)) - set_number_to_unity(t); - if (number_zero(dy) && number_zero(arg2) && number_positive(dx) && number_negative(arg1)) - set_number_to_unity(t); - */ - /* END PATCH */ if (number_negative(t)) break; incr (s); @@ -14268,13 +14096,6 @@ integer mp_get_turn_amt (MP mp, mp_knot w, mp_number dx, mp_number dy, boolean c dbg_close_t;dbg_comma; dbg_nl; #endif - /* BEGIN PATCH */ - /* if (number_negative(dy) && number_zero(arg1) && number_zero(dx) && number_negative(arg2)) { - set_number_to_unity(t); - number_negate(t); - } - */ - /* END PATCH */ while (number_negative(t)) { decr (s); w = ww; @@ -14507,10 +14328,6 @@ dbg_key(Decide on the net change in pen offsets and set turn_amt);dbg_open_t;dbg dbg_n(ab_vs_cd);dbg_n(dx);dbg_n(dyin);dbg_n(dxin);dbg_n(dy); #endif /* BEGIN PATCH */ -/* - if (number_negative(dy) && number_equal(dy,dyin) && number_equal(dx,epsilon_t)) - set_number_to_unity(ab_vs_cd); -*/ #ifdef DEBUGENVELOPE dbg_key_nval(ab_vs_cd patched,ab_vs_cd); dbg_close_t;dbg_comma;dbg_nl; @@ -14619,7 +14436,7 @@ dbg_open_t;dbg_dn(d_sign);dbg_close_t;dbg_comma;dbg_nl; set_number_from_addition (arg1, y0, y2); take_fraction (r1, x1, arg1); set_number_from_addition (arg1, x0, x2); - /*%take_fraction (r1, y1, arg1);*//* The old one, is it correct ?*/ + /*|take_fraction (r1, y1, arg1);|*//* The old one, is it correct ?*/ take_fraction (r2, y1, arg1); number_half (r1); number_half (r2); @@ -14673,14 +14490,6 @@ if (number_positive(t0)) { dbg_key(patch ss before);dbg_open_t; dbg_n(ss);dbg_close_t;dbg_comma; #endif - /* new_number(abs_ss); */ - /* new_number(eps_ss); */ - /* set_number_from_double(eps_ss,1e-6); */ - /* number_clone(abs_ss,ss); */ - /* number_abs(abs_ss); */ - /* if (number_greaterequal(eps_ss,abs_ss)) { */ - /* /\* set_number_to_zero(ss)*\/;/\* a warning here ? *\/ */ - /* } */ #ifdef DEBUGENVELOPE dbg_key(patch ss after);dbg_open_t; dbg_n(ss);dbg_close_t;dbg_comma; @@ -15514,8 +15323,8 @@ if (number_nonzero(x3) || number_nonzero(y3)) { n_arg (phi, x3, y3); } /* Exit to |found| if the curve whose derivatives are specified by - |x1,x2,x3,y1,y2,y3| travels eastward at some time~|tt| */ -/* In this step we want to use the |crossing_point| routine to find the + |x1,x2,x3,y1,y2,y3| travels eastward at some time~|tt|.*/ +/*In this step we want to use the |crossing_point| routine to find the roots of the quadratic equation $B(y_1,y_2,y_3;t)=0$. Several complications arise: If the quadratic equation has a double root, the curve never crosses zero, and |crossing_point| will find nothing; @@ -15523,8 +15332,8 @@ this case occurs iff $y_1y_3=y_2^2$ and $y_1y_2<0$. If the quadratic equation has simple roots, or only one root, we may have to negate it so that $B(y_1,y_2,y_3;t)$ crosses from positive to negative at its first root. And finally, we need to do special things if $B(y_1,y_2,y_3;t)$ is -identically zero. */ -if (number_negative(x1)) +identically zero.*/ + if (number_negative(x1)) if (number_negative(x2)) if (number_negative(x3)) goto DONE; @@ -29167,7 +28976,7 @@ static void mp_set_up_boundingpath (MP mp, mp_node p) { new_number(miterlim); pen = (value_knot (p)); /* accept elliptical pens for s paths */ - /* using mp_make_path to convert an elliptical pen to a polygonal one. */ + /* using |mp_make_path| to convert an elliptical pen to a polygonal one. */ /* The approximation of 8 knots should be good enough. */ if (pen_is_elliptical (value_knot (p))) { mp_knot kp,kq; @@ -29180,11 +28989,6 @@ static void mp_set_up_boundingpath (MP mp, mp_node p) { mp_prev_knot (kq) = kp; } while (kq != pen); mp_close_path_cycle (mp, kp, pen); - /* old one */ - /* mp_bad_envelope_pen (mp); */ - /* set_cur_exp_knot (q); */ - /* mp->cur_exp.type = mp_path_type; */ - /*return;*/ } if (number_greater (internal_value (mp_linejoin), unity_t)) ljoin = 2; @@ -29202,12 +29006,9 @@ static void mp_set_up_boundingpath (MP mp, mp_node p) { set_number_to_unity(miterlim); else number_clone(miterlim, internal_value (mp_miterlimit)); - - /*qq = mp_make_envelope(mp, q, value_knot (p), ljoin, lcap, miterlim);*/ qq = mp_make_envelope(mp, q, pen, ljoin, lcap, miterlim); set_cur_exp_knot (qq); mp->cur_exp.type = mp_path_type; - if (!mp_get_cur_bbox (mp)) { mp_bad_binary (mp, p, mp_boundingpath_of); set_cur_exp_knot (q); |