Commit 5f078cc8 authored by Sergei Golubchik's avatar Sergei Golubchik

compilation errors on sparc sun studio 10

1. unused static inline functions are only removed at -xO4,
   otherwise test binaries will depend on various mysys
   symbols that they don't use. Link test with libmysys.

2. Sphinx - don't instantiate (explicitly) templates before
   they're defined. Or, rather, don't instantiate them explicitly at
   all.

3. GIS - don't use anonymous unions and structs.
parent 2a478178
......@@ -49,14 +49,14 @@ typedef int (*sc_compare_func)(const void*, const void*);
static Gcalc_scan_iterator::point *eq_sp(const Gcalc_heap::Info *pi)
{
GCALC_DBUG_ASSERT(pi->type == Gcalc_heap::nt_eq_node);
return (Gcalc_scan_iterator::point *) pi->eq_data;
return (Gcalc_scan_iterator::point *) pi->node.eq.data;
}
static Gcalc_scan_iterator::intersection_info *i_data(const Gcalc_heap::Info *pi)
{
GCALC_DBUG_ASSERT(pi->type == Gcalc_heap::nt_intersection);
return (Gcalc_scan_iterator::intersection_info *) pi->intersection_data;
return (Gcalc_scan_iterator::intersection_info *) pi->node.intersection.data;
}
......@@ -103,8 +103,8 @@ const char *gcalc_ev_name(int ev)
static int gcalc_pi_str(char *str, const Gcalc_heap::Info *pi, const char *postfix)
{
return sprintf(str, "%s %d %d | %s %d %d%s",
GCALC_SIGN(pi->ix[0]) ? "-":"", FIRST_DIGIT(pi->ix[0]),pi->ix[1],
GCALC_SIGN(pi->iy[0]) ? "-":"", FIRST_DIGIT(pi->iy[0]),pi->iy[1],
GCALC_SIGN(pi->node.shape.ix[0]) ? "-":"", FIRST_DIGIT(pi->node.shape.ix[0]),pi->node.shape.ix[1],
GCALC_SIGN(pi->node.shape.iy[0]) ? "-":"", FIRST_DIGIT(pi->node.shape.iy[0]),pi->node.shape.iy[1],
postfix);
}
......@@ -594,8 +594,8 @@ void Gcalc_scan_iterator::intersection_info::do_calc_t()
Gcalc_coord1 a2_a1x, a2_a1y;
Gcalc_coord2 x1y2, x2y1;
gcalc_sub_coord1(a2_a1x, edge_b->pi->ix, edge_a->pi->ix);
gcalc_sub_coord1(a2_a1y, edge_b->pi->iy, edge_a->pi->iy);
gcalc_sub_coord1(a2_a1x, edge_b->pi->node.shape.ix, edge_a->pi->node.shape.ix);
gcalc_sub_coord1(a2_a1y, edge_b->pi->node.shape.iy, edge_a->pi->node.shape.iy);
GCALC_DBUG_ASSERT(!gcalc_is_zero(edge_a->dy, GCALC_COORD_BASE) ||
!gcalc_is_zero(edge_b->dy, GCALC_COORD_BASE));
......@@ -619,7 +619,7 @@ void Gcalc_scan_iterator::intersection_info::do_calc_y()
Gcalc_coord3 a_tb, b_ta;
gcalc_mul_coord(a_tb, GCALC_COORD_BASE3,
t_b, GCALC_COORD_BASE2, edge_a->pi->iy, GCALC_COORD_BASE);
t_b, GCALC_COORD_BASE2, edge_a->pi->node.shape.iy, GCALC_COORD_BASE);
gcalc_mul_coord(b_ta, GCALC_COORD_BASE3,
t_a, GCALC_COORD_BASE2, edge_a->dy, GCALC_COORD_BASE);
......@@ -635,7 +635,7 @@ void Gcalc_scan_iterator::intersection_info::do_calc_x()
Gcalc_coord3 a_tb, b_ta;
gcalc_mul_coord(a_tb, GCALC_COORD_BASE3,
t_b, GCALC_COORD_BASE2, edge_a->pi->ix, GCALC_COORD_BASE);
t_b, GCALC_COORD_BASE2, edge_a->pi->node.shape.ix, GCALC_COORD_BASE);
gcalc_mul_coord(b_ta, GCALC_COORD_BASE3,
t_a, GCALC_COORD_BASE2, edge_a->dx, GCALC_COORD_BASE);
......@@ -656,7 +656,7 @@ static int cmp_node_isc(const Gcalc_heap::Info *node,
inf->calc_y_exp();
gcalc_mul_coord(exp, GCALC_COORD_BASE3,
inf->t_b, GCALC_COORD_BASE2, node->iy, GCALC_COORD_BASE);
inf->t_b, GCALC_COORD_BASE2, node->node.shape.iy, GCALC_COORD_BASE);
result= gcalc_cmp_coord(exp, inf->y_exp, GCALC_COORD_BASE3);
#ifdef GCALC_CHECK_WITH_FLOAT
......@@ -664,18 +664,18 @@ static int cmp_node_isc(const Gcalc_heap::Info *node,
isc->calc_xy_ld(&int_x, &int_y);
if (result < 0)
{
if (!de_check(int_y, node->y) && node->y > int_y)
GCALC_DBUG_PRINT(("floatcheck cmp_nod_iscy %g < %LG", node->y, int_y));
if (!de_check(int_y, node->node.shape.y) && node->node.shape.y > int_y)
GCALC_DBUG_PRINT(("floatcheck cmp_nod_iscy %g < %LG", node->node.shape.y, int_y));
}
else if (result > 0)
{
if (!de_check(int_y, node->y) && node->y < int_y)
GCALC_DBUG_PRINT(("floatcheck cmp_nod_iscy %g > %LG", node->y, int_y));
if (!de_check(int_y, node->node.shape.y) && node->node.shape.y < int_y)
GCALC_DBUG_PRINT(("floatcheck cmp_nod_iscy %g > %LG", node->node.shape.y, int_y));
}
else
{
if (!de_check(int_y, node->y))
GCALC_DBUG_PRINT(("floatcheck cmp_nod_iscy %g == %LG", node->y, int_y));
if (!de_check(int_y, node->node.shape.y))
GCALC_DBUG_PRINT(("floatcheck cmp_nod_iscy %g == %LG", node->node.shape.y, int_y));
}
#endif /*GCALC_CHECK_WITH_FLOAT*/
if (result)
......@@ -684,27 +684,27 @@ static int cmp_node_isc(const Gcalc_heap::Info *node,
inf->calc_x_exp();
gcalc_mul_coord(exp, GCALC_COORD_BASE3,
inf->t_b, GCALC_COORD_BASE2, node->ix, GCALC_COORD_BASE);
inf->t_b, GCALC_COORD_BASE2, node->node.shape.ix, GCALC_COORD_BASE);
result= gcalc_cmp_coord(exp, inf->x_exp, GCALC_COORD_BASE3);
#ifdef GCALC_CHECK_WITH_FLOAT
if (result < 0)
{
if (!de_check(int_x, node->x) && node->x > int_x)
if (!de_check(int_x, node->node.shape.x) && node->node.shape.x > int_x)
GCALC_DBUG_PRINT(("floatcheck cmp_nod_iscx failed %g < %LG",
node->x, int_x));
node->node.shape.x, int_x));
}
else if (result > 0)
{
if (!de_check(int_x, node->x) && node->x < int_x)
if (!de_check(int_x, node->node.shape.x) && node->node.shape.x < int_x)
GCALC_DBUG_PRINT(("floatcheck cmp_nod_iscx failed %g > %LG",
node->x, int_x));
node->node.shape.x, int_x));
}
else
{
if (!de_check(int_x, node->x))
if (!de_check(int_x, node->node.shape.x))
GCALC_DBUG_PRINT(("floatcheck cmp_nod_iscx failed %g == %LG",
node->x, int_x));
node->node.shape.x, int_x));
}
#endif /*GCALC_CHECK_WITH_FLOAT*/
exit:
......@@ -844,13 +844,13 @@ Gcalc_heap::Info *Gcalc_heap::new_point_info(double x, double y,
return NULL;
*m_hook= result;
m_hook= &result->next;
result->x= x;
result->y= y;
result->shape= shape;
result->top_node= 1;
result->node.shape.x= x;
result->node.shape.y= y;
result->node.shape.shape= shape;
result->node.shape.top_node= 1;
result->type= nt_shape_node;
gcalc_set_double(result->ix, x, coord_extent);
gcalc_set_double(result->iy, y, coord_extent);
gcalc_set_double(result->node.shape.ix, x, coord_extent);
gcalc_set_double(result->node.shape.iy, y, coord_extent);
m_n_points++;
return result;
......@@ -864,11 +864,11 @@ static Gcalc_heap::Info *new_intersection(
if (!isc)
return 0;
isc->type= Gcalc_heap::nt_intersection;
isc->p1= ii->edge_a->pi;
isc->p2= ii->edge_a->next_pi;
isc->p3= ii->edge_b->pi;
isc->p4= ii->edge_b->next_pi;
isc->intersection_data= ii;
isc->node.intersection.p1= ii->edge_a->pi;
isc->node.intersection.p2= ii->edge_a->next_pi;
isc->node.intersection.p3= ii->edge_b->pi;
isc->node.intersection.p4= ii->edge_b->next_pi;
isc->node.intersection.data= ii;
return isc;
}
......@@ -881,46 +881,46 @@ static Gcalc_heap::Info *new_eq_point(
if (!eqp)
return 0;
eqp->type= Gcalc_heap::nt_eq_node;
eqp->node= p;
eqp->eq_data= edge;
eqp->node.eq.node= p;
eqp->node.eq.data= edge;
return eqp;
}
void Gcalc_heap::Info::calc_xy(double *x, double *y) const
{
double b0_x= p2->x - p1->x;
double b0_y= p2->y - p1->y;
double b1_x= p4->x - p3->x;
double b1_y= p4->y - p3->y;
double b0_x= node.intersection.p2->node.shape.x - node.intersection.p1->node.shape.x;
double b0_y= node.intersection.p2->node.shape.y - node.intersection.p1->node.shape.y;
double b1_x= node.intersection.p4->node.shape.x - node.intersection.p3->node.shape.x;
double b1_y= node.intersection.p4->node.shape.y - node.intersection.p3->node.shape.y;
double b0xb1= b0_x * b1_y - b0_y * b1_x;
double t= (p3->x - p1->x) * b1_y - (p3->y - p1->y) * b1_x;
double t= (node.intersection.p3->node.shape.x - node.intersection.p1->node.shape.x) * b1_y - (node.intersection.p3->node.shape.y - node.intersection.p1->node.shape.y) * b1_x;
t/= b0xb1;
*x= p1->x + b0_x * t;
*y= p1->y + b0_y * t;
*x= node.intersection.p1->node.shape.x + b0_x * t;
*y= node.intersection.p1->node.shape.y + b0_y * t;
}
#ifdef GCALC_CHECK_WITH_FLOAT
void Gcalc_heap::Info::calc_xy_ld(long double *x, long double *y) const
{
long double b0_x= ((long double) p2->x) - p1->x;
long double b0_y= ((long double) p2->y) - p1->y;
long double b1_x= ((long double) p4->x) - p3->x;
long double b1_y= ((long double) p4->y) - p3->y;
long double b0_x= ((long double) p2->node.shape.x) - p1->node.shape.x;
long double b0_y= ((long double) p2->node.shape.y) - p1->node.shape.y;
long double b1_x= ((long double) p4->node.shape.x) - p3->node.shape.x;
long double b1_y= ((long double) p4->node.shape.y) - p3->node.shape.y;
long double b0xb1= b0_x * b1_y - b0_y * b1_x;
long double ax= ((long double) p3->x) - p1->x;
long double ay= ((long double) p3->y) - p1->y;
long double ax= ((long double) p3->node.shape.x) - p1->node.shape.x;
long double ay= ((long double) p3->node.shape.y) - p1->node.shape.y;
long double t_a= ax * b1_y - ay * b1_x;
long double hx= (b0xb1 * (long double) p1->x + b0_x * t_a);
long double hy= (b0xb1 * (long double) p1->y + b0_y * t_a);
long double hx= (b0xb1 * (long double) p1->node.shape.x + b0_x * t_a);
long double hy= (b0xb1 * (long double) p1->node.shape.y + b0_y * t_a);
if (fabs(b0xb1) < 1e-15)
{
*x= p1->x;
*y= p1->y;
*x= p1->node.shape.x;
*y= p1->node.shape.y;
return;
}
......@@ -933,10 +933,10 @@ void Gcalc_heap::Info::calc_xy_ld(long double *x, long double *y) const
static int cmp_point_info(const Gcalc_heap::Info *i0,
const Gcalc_heap::Info *i1)
{
int cmp_y= gcalc_cmp_coord1(i0->iy, i1->iy);
int cmp_y= gcalc_cmp_coord1(i0->node.shape.iy, i1->node.shape.iy);
if (cmp_y)
return cmp_y;
return gcalc_cmp_coord1(i0->ix, i1->ix);
return gcalc_cmp_coord1(i0->node.shape.ix, i1->node.shape.ix);
}
......@@ -944,11 +944,11 @@ static inline void trim_node(Gcalc_heap::Info *node, Gcalc_heap::Info *prev_node
{
if (!node)
return;
node->top_node= 0;
GCALC_DBUG_ASSERT((node->left == prev_node) || (node->right == prev_node));
if (node->left == prev_node)
node->left= node->right;
node->right= NULL;
node->node.shape.top_node= 0;
GCALC_DBUG_ASSERT((node->node.shape.left == prev_node) || (node->node.shape.right == prev_node));
if (node->node.shape.left == prev_node)
node->node.shape.left= node->node.shape.right;
node->node.shape.right= NULL;
GCALC_DBUG_ASSERT(cmp_point_info(node, prev_node));
}
......@@ -972,8 +972,8 @@ void Gcalc_heap::prepare_operation()
/* TODO - move this to the 'normal_scan' loop */
for (cur= get_first(); cur; cur= cur->get_next())
{
trim_node(cur->left, cur);
trim_node(cur->right, cur);
trim_node(cur->node.shape.left, cur);
trim_node(cur->node.shape.right, cur);
}
}
......@@ -995,7 +995,7 @@ int Gcalc_shape_transporter::int_single_point(gcalc_shape_info Info,
Gcalc_heap::Info *point= m_heap->new_point_info(x, y, Info);
if (!point)
return 1;
point->left= point->right= 0;
point->node.shape.left= point->node.shape.right= 0;
return 0;
}
......@@ -1018,9 +1018,9 @@ int Gcalc_shape_transporter::int_add_point(gcalc_shape_info Info,
m_heap->free_point_info(point, hook);
return 0;
}
GCALC_DBUG_ASSERT(!m_prev || m_prev->x != x || m_prev->y != y);
m_prev->left= point;
point->right= m_prev;
GCALC_DBUG_ASSERT(!m_prev || m_prev->node.shape.x != x || m_prev->node.shape.y != y);
m_prev->node.shape.left= point;
point->node.shape.right= m_prev;
}
else
m_first= point;
......@@ -1040,16 +1040,16 @@ void Gcalc_shape_transporter::int_complete()
/* simple point */
if (m_first == m_prev)
{
m_first->right= m_first->left= NULL;
m_first->node.shape.right= m_first->node.shape.left= NULL;
return;
}
/* line */
if (m_shape_started == 1)
{
m_first->right= NULL;
m_prev->left= m_prev->right;
m_prev->right= NULL;
m_first->node.shape.right= NULL;
m_prev->node.shape.left= m_prev->node.shape.right;
m_prev->node.shape.right= NULL;
return;
}
......@@ -1057,32 +1057,32 @@ void Gcalc_shape_transporter::int_complete()
if (cmp_point_info(m_first, m_prev) == 0)
{
/* Coinciding points, remove the last one from the list */
m_prev->right->left= m_first;
m_first->right= m_prev->right;
m_prev->node.shape.right->node.shape.left= m_first;
m_first->node.shape.right= m_prev->node.shape.right;
m_heap->free_point_info(m_prev, m_prev_hook);
}
else
{
GCALC_DBUG_ASSERT(m_prev->x != m_first->x || m_prev->y != m_first->y);
m_first->right= m_prev;
m_prev->left= m_first;
GCALC_DBUG_ASSERT(m_prev->node.shape.x != m_first->node.shape.x || m_prev->node.shape.y != m_first->node.shape.y);
m_first->node.shape.right= m_prev;
m_prev->node.shape.left= m_first;
}
}
inline void calc_dx_dy(Gcalc_scan_iterator::point *p)
{
gcalc_sub_coord1(p->dx, p->next_pi->ix, p->pi->ix);
gcalc_sub_coord1(p->dy, p->next_pi->iy, p->pi->iy);
gcalc_sub_coord1(p->dx, p->next_pi->node.shape.ix, p->pi->node.shape.ix);
gcalc_sub_coord1(p->dy, p->next_pi->node.shape.iy, p->pi->node.shape.iy);
if (GCALC_SIGN(p->dx[0]))
{
p->l_border= &p->next_pi->ix;
p->r_border= &p->pi->ix;
p->l_border= &p->next_pi->node.shape.ix;
p->r_border= &p->pi->node.shape.ix;
}
else
{
p->r_border= &p->next_pi->ix;
p->l_border= &p->pi->ix;
p->r_border= &p->next_pi->node.shape.ix;
p->l_border= &p->pi->node.shape.ix;
}
}
......@@ -1143,10 +1143,10 @@ int Gcalc_scan_iterator::point::cmp_dx_dy(const Gcalc_heap::Info *p1,
const Gcalc_heap::Info *p4)
{
Gcalc_coord1 dx_a, dy_a, dx_b, dy_b;
gcalc_sub_coord1(dx_a, p2->ix, p1->ix);
gcalc_sub_coord1(dy_a, p2->iy, p1->iy);
gcalc_sub_coord1(dx_b, p4->ix, p3->ix);
gcalc_sub_coord1(dy_b, p4->iy, p3->iy);
gcalc_sub_coord1(dx_a, p2->node.shape.ix, p1->node.shape.ix);
gcalc_sub_coord1(dy_a, p2->node.shape.iy, p1->node.shape.iy);
gcalc_sub_coord1(dx_b, p4->node.shape.ix, p3->node.shape.ix);
gcalc_sub_coord1(dy_b, p4->node.shape.iy, p3->node.shape.iy);
return cmp_dx_dy(dx_a, dy_a, dx_b, dy_b);
}
......@@ -1168,8 +1168,8 @@ void Gcalc_scan_iterator::point::calc_x(long double *x, long double y,
*x= ix;
}
else
*x= (ddy * (long double) pi->x + gcalc_get_double(dx, GCALC_COORD_BASE) *
(y - pi->y)) / ddy;
*x= (ddy * (long double) pi->node.shape.x + gcalc_get_double(dx, GCALC_COORD_BASE) *
(y - pi->node.shape.y)) / ddy;
}
#endif /*GCALC_CHECK_WITH_FLOAT*/
......@@ -1280,7 +1280,7 @@ int Gcalc_scan_iterator::arrange_event(int do_sorting, int n_intersections)
int Gcalc_heap::Info::equal_pi(const Info *pi) const
{
if (type == nt_intersection)
return equal_intersection;
return node.intersection.equal;
if (pi->type == nt_eq_node)
return 1;
if (type == nt_eq_node || pi->type == nt_intersection)
......@@ -1322,7 +1322,7 @@ int Gcalc_scan_iterator::step()
#ifndef GCALC_DBUG_OFF
if (m_cur_pi->type == Gcalc_heap::nt_intersection &&
m_cur_pi->get_next()->type == Gcalc_heap::nt_intersection &&
m_cur_pi->equal_intersection)
m_cur_pi->node.intersection.equal)
GCALC_DBUG_ASSERT(cmp_intersections(m_cur_pi, m_cur_pi->get_next()) == 0);
#endif /*GCALC_DBUG_OFF*/
GCALC_DBUG_CHECK_COUNTER();
......@@ -1377,23 +1377,23 @@ static int node_on_right(const Gcalc_heap::Info *node,
Gcalc_coord2 ax_by, ay_bx;
int result;
gcalc_sub_coord1(a_x, node->ix, edge_a->ix);
gcalc_sub_coord1(a_y, node->iy, edge_a->iy);
gcalc_sub_coord1(b_x, edge_b->ix, edge_a->ix);
gcalc_sub_coord1(b_y, edge_b->iy, edge_a->iy);
gcalc_sub_coord1(a_x, node->node.shape.ix, edge_a->node.shape.ix);
gcalc_sub_coord1(a_y, node->node.shape.iy, edge_a->node.shape.iy);
gcalc_sub_coord1(b_x, edge_b->node.shape.ix, edge_a->node.shape.ix);
gcalc_sub_coord1(b_y, edge_b->node.shape.iy, edge_a->node.shape.iy);
gcalc_mul_coord1(ax_by, a_x, b_y);
gcalc_mul_coord1(ay_bx, a_y, b_x);
result= gcalc_cmp_coord(ax_by, ay_bx, GCALC_COORD_BASE2);
#ifdef GCALC_CHECK_WITH_FLOAT
{
long double dx= gcalc_get_double(edge_b->ix, GCALC_COORD_BASE) -
gcalc_get_double(edge_a->ix, GCALC_COORD_BASE);
long double dy= gcalc_get_double(edge_b->iy, GCALC_COORD_BASE) -
gcalc_get_double(edge_a->iy, GCALC_COORD_BASE);
long double ax= gcalc_get_double(node->ix, GCALC_COORD_BASE) -
gcalc_get_double(edge_a->ix, GCALC_COORD_BASE);
long double ay= gcalc_get_double(node->iy, GCALC_COORD_BASE) -
gcalc_get_double(edge_a->iy, GCALC_COORD_BASE);
long double dx= gcalc_get_double(edge_b->node.shape.ix, GCALC_COORD_BASE) -
gcalc_get_double(edge_a->node.shape.ix, GCALC_COORD_BASE);
long double dy= gcalc_get_double(edge_b->node.shape.iy, GCALC_COORD_BASE) -
gcalc_get_double(edge_a->node.shape.iy, GCALC_COORD_BASE);
long double ax= gcalc_get_double(node->node.shape.ix, GCALC_COORD_BASE) -
gcalc_get_double(edge_a->node.shape.ix, GCALC_COORD_BASE);
long double ay= gcalc_get_double(node->node.shape.iy, GCALC_COORD_BASE) -
gcalc_get_double(edge_a->node.shape.iy, GCALC_COORD_BASE);
long double d= ax * dy - ay * dx;
if (result == 0)
GCALC_DBUG_ASSERT(de_check(d, 0.0));
......@@ -1412,8 +1412,8 @@ static int cmp_tops(const Gcalc_heap::Info *top_node,
{
int cmp_res_a, cmp_res_b;
cmp_res_a= gcalc_cmp_coord1(edge_a->ix, top_node->ix);
cmp_res_b= gcalc_cmp_coord1(edge_b->ix, top_node->ix);
cmp_res_a= gcalc_cmp_coord1(edge_a->node.shape.ix, top_node->node.shape.ix);
cmp_res_b= gcalc_cmp_coord1(edge_b->node.shape.ix, top_node->node.shape.ix);
if (cmp_res_a <= 0 && cmp_res_b > 0)
return -1;
......@@ -1438,26 +1438,26 @@ int Gcalc_scan_iterator::insert_top_node()
if (!sp0)
GCALC_DBUG_RETURN(1);
sp0->pi= m_cur_pi;
sp0->next_pi= m_cur_pi->left;
sp0->next_pi= m_cur_pi->node.shape.left;
#ifndef GCALC_DBUG_OFF
sp0->thread= m_cur_thread++;
#endif /*GCALC_DBUG_OFF*/
if (m_cur_pi->left)
if (m_cur_pi->node.shape.left)
{
calc_dx_dy(sp0);
if (m_cur_pi->right)
if (m_cur_pi->node.shape.right)
{
if (!(sp1= new_slice_point()))
GCALC_DBUG_RETURN(1);
sp1->event= sp0->event= scev_two_threads;
sp1->pi= m_cur_pi;
sp1->next_pi= m_cur_pi->right;
sp1->next_pi= m_cur_pi->node.shape.right;
#ifndef GCALC_DBUG_OFF
sp1->thread= m_cur_thread++;
#endif /*GCALC_DBUG_OFF*/
calc_dx_dy(sp1);
/* We have two threads so should decide which one will be first */
cmp_res= cmp_tops(m_cur_pi, m_cur_pi->left, m_cur_pi->right);
cmp_res= cmp_tops(m_cur_pi, m_cur_pi->node.shape.left, m_cur_pi->node.shape.right);
if (cmp_res > 0)
{
point *tmp= sp0;
......@@ -1467,7 +1467,7 @@ int Gcalc_scan_iterator::insert_top_node()
else if (cmp_res == 0)
{
/* Exactly same direction of the edges. */
cmp_res= gcalc_cmp_coord1(m_cur_pi->left->iy, m_cur_pi->right->iy);
cmp_res= gcalc_cmp_coord1(m_cur_pi->node.shape.left->node.shape.iy, m_cur_pi->node.shape.right->node.shape.iy);
if (cmp_res != 0)
{
if (cmp_res < 0)
......@@ -1483,7 +1483,7 @@ int Gcalc_scan_iterator::insert_top_node()
}
else
{
cmp_res= gcalc_cmp_coord1(m_cur_pi->left->ix, m_cur_pi->right->ix);
cmp_res= gcalc_cmp_coord1(m_cur_pi->node.shape.left->node.shape.ix, m_cur_pi->node.shape.right->node.shape.ix);
if (cmp_res != 0)
{
if (cmp_res < 0)
......@@ -1517,7 +1517,7 @@ int Gcalc_scan_iterator::insert_top_node()
/* We need to find the place to insert. */
for (; sp; prev_hook= sp->next_ptr(), sp=sp->get_next())
{
if (sp->event || gcalc_cmp_coord1(*sp->r_border, m_cur_pi->ix) < 0)
if (sp->event || gcalc_cmp_coord1(*sp->r_border, m_cur_pi->node.shape.ix) < 0)
continue;
cmp_res= node_on_right(m_cur_pi, sp->pi, sp->next_pi);
if (cmp_res == 0)
......@@ -1743,7 +1743,7 @@ int Gcalc_scan_iterator::node_scan()
GCALC_DBUG_PRINT(("node for %d", sp->thread));
/* Handle the point itself. */
sp->pi= cur_pi;
sp->next_pi= cur_pi->left;
sp->next_pi= cur_pi->node.shape.left;
sp->event= scev_point;
calc_dx_dy(sp);
......@@ -1794,7 +1794,7 @@ void Gcalc_scan_iterator::intersection_scan()
ii->edge_a->event= ii->edge_b->event= scev_intersection;
ii->edge_a->ev_pi= ii->edge_b->ev_pi= m_cur_pi;
free_item(ii);
m_cur_pi->intersection_data= NULL;
m_cur_pi->node.intersection.data= NULL;
GCALC_DBUG_VOID_RETURN;
}
......@@ -1813,7 +1813,7 @@ int Gcalc_scan_iterator::add_intersection(point *sp_a, point *sp_b,
!(ii= new_intersection(m_heap, i_calc)))
GCALC_DBUG_RETURN(1);
ii->equal_intersection= 0;
ii->node.intersection.equal= 0;
for (;
pi_from->get_next() != sp_a->next_pi &&
......@@ -1824,7 +1824,7 @@ int Gcalc_scan_iterator::add_intersection(point *sp_a, point *sp_b,
if (skip_next)
{
if (cur->type == Gcalc_heap::nt_intersection)
skip_next= cur->equal_intersection;
skip_next= cur->node.intersection.equal;
else
skip_next= 0;
continue;
......@@ -1832,7 +1832,7 @@ int Gcalc_scan_iterator::add_intersection(point *sp_a, point *sp_b,
if (cur->type == Gcalc_heap::nt_intersection)
{
cmp_res= cmp_intersections(cur, ii);
skip_next= cur->equal_intersection;
skip_next= cur->node.intersection.equal;
}
else if (cur->type == Gcalc_heap::nt_eq_node)
continue;
......@@ -1840,7 +1840,7 @@ int Gcalc_scan_iterator::add_intersection(point *sp_a, point *sp_b,
cmp_res= cmp_node_isc(cur, ii);
if (cmp_res == 0)
{
ii->equal_intersection= 1;
ii->node.intersection.equal= 1;
break;
}
else if (cmp_res > 0)
......@@ -1881,13 +1881,13 @@ void calc_t(Gcalc_coord2 t_a, Gcalc_coord2 t_b,
Gcalc_coord2 x1y2, x2y1;
Gcalc_coord1 dya, dyb;
gcalc_sub_coord1(a2_a1x, p3->ix, p1->ix);
gcalc_sub_coord1(a2_a1y, p3->iy, p1->iy);
gcalc_sub_coord1(a2_a1x, p3->node.shape.ix, p1->node.shape.ix);
gcalc_sub_coord1(a2_a1y, p3->node.shape.iy, p1->node.shape.iy);
gcalc_sub_coord1(dxa, p2->ix, p1->ix);
gcalc_sub_coord1(dya, p2->iy, p1->iy);
gcalc_sub_coord1(dxb, p4->ix, p3->ix);
gcalc_sub_coord1(dyb, p4->iy, p3->iy);
gcalc_sub_coord1(dxa, p2->node.shape.ix, p1->node.shape.ix);
gcalc_sub_coord1(dya, p2->node.shape.iy, p1->node.shape.iy);
gcalc_sub_coord1(dxb, p4->node.shape.ix, p3->node.shape.ix);
gcalc_sub_coord1(dyb, p4->node.shape.iy, p3->node.shape.iy);
gcalc_mul_coord1(x1y2, dxa, dyb);
gcalc_mul_coord1(x2y1, dya, dxb);
......@@ -1908,11 +1908,11 @@ double Gcalc_scan_iterator::get_y() const
Gcalc_coord2 t_a, t_b;
Gcalc_coord3 a_tb, b_ta, y_exp;
calc_t(t_a, t_b, dxa, dya,
state.pi->p1, state.pi->p2, state.pi->p3, state.pi->p4);
state.pi->node.intersection.p1, state.pi->node.intersection.p2, state.pi->node.intersection.p3, state.pi->node.intersection.p4);
gcalc_mul_coord(a_tb, GCALC_COORD_BASE3,
t_b, GCALC_COORD_BASE2, state.pi->p1->iy, GCALC_COORD_BASE);
t_b, GCALC_COORD_BASE2, state.pi->node.intersection.p1->node.shape.iy, GCALC_COORD_BASE);
gcalc_mul_coord(b_ta, GCALC_COORD_BASE3,
t_a, GCALC_COORD_BASE2, dya, GCALC_COORD_BASE);
......@@ -1922,7 +1922,7 @@ double Gcalc_scan_iterator::get_y() const
get_pure_double(t_b, GCALC_COORD_BASE2)) / m_heap->coord_extent;
}
else
return state.pi->y;
return state.pi->node.shape.y;
}
......@@ -1934,11 +1934,11 @@ double Gcalc_scan_iterator::get_event_x() const
Gcalc_coord2 t_a, t_b;
Gcalc_coord3 a_tb, b_ta, x_exp;
calc_t(t_a, t_b, dxa, dya,
state.pi->p1, state.pi->p2, state.pi->p3, state.pi->p4);
state.pi->node.intersection.p1, state.pi->node.intersection.p2, state.pi->node.intersection.p3, state.pi->node.intersection.p4);
gcalc_mul_coord(a_tb, GCALC_COORD_BASE3,
t_b, GCALC_COORD_BASE2, state.pi->p1->ix, GCALC_COORD_BASE);
t_b, GCALC_COORD_BASE2, state.pi->node.intersection.p1->node.shape.ix, GCALC_COORD_BASE);
gcalc_mul_coord(b_ta, GCALC_COORD_BASE3,
t_a, GCALC_COORD_BASE2, dxa, GCALC_COORD_BASE);
......@@ -1948,7 +1948,7 @@ double Gcalc_scan_iterator::get_event_x() const
get_pure_double(t_b, GCALC_COORD_BASE2)) / m_heap->coord_extent;
}
else
return state.pi->x;
return state.pi->node.shape.x;
}
double Gcalc_scan_iterator::get_h() const
......@@ -1961,7 +1961,7 @@ double Gcalc_scan_iterator::get_h() const
state.pi->calc_xy(&x, &next_y);
}
else
next_y= state.pi->y;
next_y= state.pi->node.shape.y;
return next_y - cur_y;
}
......@@ -1970,11 +1970,11 @@ double Gcalc_scan_iterator::get_sp_x(const point *sp) const
{
double dy;
if (sp->event & (scev_end | scev_two_ends | scev_point))
return sp->pi->x;
dy= sp->next_pi->y - sp->pi->y;
return sp->pi->node.shape.x;
dy= sp->next_pi->node.shape.y - sp->pi->node.shape.y;
if (fabs(dy) < 1e-12)
return sp->pi->x;
return (sp->next_pi->x - sp->pi->x) * dy;
return sp->pi->node.shape.x;
return (sp->next_pi->node.shape.x - sp->pi->node.shape.x) * dy;
}
......
......@@ -188,7 +188,7 @@ public:
double x,y;
Gcalc_coord1 ix, iy;
int top_node;
};
} shape;
struct
{
/* nt_intersection */
......@@ -197,21 +197,21 @@ public:
const Info *p2;
const Info *p3;
const Info *p4;
void *intersection_data;
int equal_intersection;
};
void *data;
int equal;
} intersection;
struct
{
/* nt_eq_node */
const Info *node;
void *eq_data;
};
};
void *data;
} eq;
} node;
bool is_bottom() const
{ GCALC_DBUG_ASSERT(type == nt_shape_node); return !left; }
{ GCALC_DBUG_ASSERT(type == nt_shape_node); return !node.shape.left; }
bool is_top() const
{ GCALC_DBUG_ASSERT(type == nt_shape_node); return top_node; }
{ GCALC_DBUG_ASSERT(type == nt_shape_node); return node.shape.top_node; }
bool is_single_node() const
{ return is_bottom() && is_top(); }
......@@ -383,7 +383,7 @@ public:
inline const point *c_get_next() const
{ return (const point *)next; }
inline bool is_bottom() const { return !next_pi; }
gcalc_shape_info get_shape() const { return pi->shape; }
gcalc_shape_info get_shape() const { return pi->node.shape.shape; }
inline point *get_next() { return (point *)next; }
inline const point *get_next() const { return (const point *)next; }
/* Compare the dx_dy parameters regarding the horiz_dir */
......
......@@ -1243,7 +1243,7 @@ inline int Gcalc_operation_reducer::get_single_result(res_point *res,
GCALC_DBUG_RETURN(1);
}
else
if (storage->single_point(res->pi->x, res->pi->y))
if (storage->single_point(res->pi->node.shape.x, res->pi->node.shape.y))
GCALC_DBUG_RETURN(1);
free_result(res);
GCALC_DBUG_RETURN(0);
......@@ -1269,8 +1269,8 @@ int Gcalc_operation_reducer::get_result_thread(res_point *cur,
}
else
{
x= cur->pi->x;
y= cur->pi->y;
x= cur->pi->node.shape.x;
y= cur->pi->node.shape.y;
}
if (storage->add_point(x, y))
GCALC_DBUG_RETURN(1);
......
......@@ -636,10 +636,10 @@ static double count_edge_t(const Gcalc_heap::Info *ea,
double &ex, double &ey, double &vx, double &vy,
double &e_sqrlen)
{
ex= eb->x - ea->x;
ey= eb->y - ea->y;
vx= v->x - ea->x;
vy= v->y - ea->y;
ex= eb->node.shape.x - ea->node.shape.x;
ey= eb->node.shape.y - ea->node.shape.y;
vx= v->node.shape.x - ea->node.shape.x;
vy= v->node.shape.y - ea->node.shape.y;
e_sqrlen= ex * ex + ey * ey;
return (ex * vx + ey * vy) / e_sqrlen;
}
......@@ -655,8 +655,8 @@ static double distance_to_line(double ex, double ey, double vx, double vy,
static double distance_points(const Gcalc_heap::Info *a,
const Gcalc_heap::Info *b)
{
double x= a->x - b->x;
double y= a->y - b->y;
double x= a->node.shape.x - b->node.shape.x;
double y= a->node.shape.y - b->node.shape.y;
return sqrt(x * x + y * y);
}
......@@ -1697,7 +1697,7 @@ double Item_func_distance::val_real()
continue;
count_distance:
if (cur_point->shape >= obj2_si)
if (cur_point->node.shape.shape >= obj2_si)
continue;
cur_point_edge= !cur_point->is_bottom();
......@@ -1705,13 +1705,13 @@ count_distance:
{
/* We only check vertices of object 2 */
if (dist_point->type != Gcalc_heap::nt_shape_node ||
dist_point->shape < obj2_si)
dist_point->node.shape.shape < obj2_si)
continue;
/* if we have an edge to check */
if (dist_point->left)
if (dist_point->node.shape.left)
{
t= count_edge_t(dist_point, dist_point->left, cur_point,
t= count_edge_t(dist_point, dist_point->node.shape.left, cur_point,
ex, ey, vx, vy, e_sqrlen);
if ((t>0.0) && (t<1.0))
{
......@@ -1722,7 +1722,7 @@ count_distance:
}
if (cur_point_edge)
{
t= count_edge_t(cur_point, cur_point->left, dist_point,
t= count_edge_t(cur_point, cur_point->node.shape.left, dist_point,
ex, ey, vx, vy, e_sqrlen);
if ((t>0.0) && (t<1.0))
{
......
......@@ -598,8 +598,10 @@ protected:
void SendFloat ( float v ) { SendDword ( sphF2DW(v) ); }
};
#ifdef HAVE_EXPLICIT_TEMPLATE_INSTANTIATION
template int CSphSEQuery::ParseArray<uint32> ( uint32 **, const char * );
template int CSphSEQuery::ParseArray<longlong> ( longlong **, const char * );
#endif
//////////////////////////////////////////////////////////////////////////////
......
......@@ -13,9 +13,9 @@
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
MY_ADD_TESTS(bitmap base64 my_vsnprintf my_atomic my_rdtsc lf my_malloc
my_getopt dynstring
MY_ADD_TESTS(bitmap base64 my_atomic my_rdtsc lf my_malloc my_getopt dynstring
LINK_LIBRARIES mysys)
MY_ADD_TESTS(my_vsnprintf LINK_LIBRARIES strings mysys)
IF(WIN32)
MY_ADD_TESTS(my_delete LINK_LIBRARIES mysys)
......
MY_ADD_TESTS(strings LINK_LIBRARIES strings)
MY_ADD_TESTS(strings LINK_LIBRARIES strings mysys)
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