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fped/meas.c
werner 1a18292883 - added icons for new-style measurements (on-going)
- increased default window size for make room for new icons
- switch the canvas to dark blue when instantiation fails
- modularized point lookup logic of instantiate_meas
- added highlight mode (on-going)



git-svn-id: http://svn.openmoko.org/trunk/eda/fped@5404 99fdad57-331a-0410-800a-d7fa5415bdb3
2009-08-07 21:47:51 +00:00

226 lines
4.0 KiB
C

/*
* meas.c - Measurements
*
* Written 2009 by Werner Almesberger
* Copyright 2009 by Werner Almesberger
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*/
#include <stdlib.h>
#include "util.h"
#include "coord.h"
#include "expr.h"
#include "obj.h"
#include "inst.h"
#include "meas.h"
struct num eval_unit(const struct expr *expr, const struct frame *frame);
struct sample {
struct coord pos;
struct sample *next;
};
struct meas *measurements = NULL;
static void reset_samples(struct sample **samples)
{
struct sample *next;
while (*samples) {
next = (*samples)->next;
free(*samples);
*samples = next;
}
}
void meas_start(void)
{
struct frame *frame;
struct vec *vec;
for (frame = frames; frame; frame = frame->next)
for (vec = frame->vecs; vec; vec = vec->next)
reset_samples(&vec->samples);
}
void meas_post(struct vec *vec, struct coord pos)
{
struct sample **walk, *new;
for (walk = &vec->samples; *walk; walk = &(*walk)->next) {
if (pos.y < (*walk)->pos.y)
break;
if (pos.y > (*walk)->pos.y)
continue;
if (pos.x < (*walk)->pos.x)
break;
if (pos.x == (*walk)->pos.x)
return;
}
new = alloc_type(struct sample);
new->pos = pos;
new->next = *walk;
*walk = new;
}
int lt_x(struct coord a, struct coord b)
{
return a.x < b.x;
}
int lt_y(struct coord a, struct coord b)
{
return a.y < b.y;
}
int lt_xy(struct coord a, struct coord b)
{
return a.y < b.y || (a.y == b.y && a.x < b.x);
}
static lt_op_type lt_op[mt_n] = {
lt_xy,
lt_x,
lt_y,
lt_xy,
lt_x,
lt_y
};
static int is_next[mt_n] = {
1, 1, 1,
0, 0, 0
};
static int better_next(lt_op_type lt,
struct coord a0, struct coord b0, struct coord b)
{
/* if we don't have any suitable point A0 < B0 yet, use this one */
if (!lt(a0, b0))
return 1;
/* B must be strictly greater than A0 */
if (!lt(a0, b))
return 0;
/* if we can get closer to A0, do so */
if (lt(b, b0))
return 1;
/* reject B > B0 */
if (lt(b0, b))
return 0;
/*
* B == B0 along the coordinate we measure. Now give the other
* coordinate a chance. This gives us a stable sort order and it
* makes meas/measx/measy usually select the same point.
*/
if (lt == lt_xy)
return 0;
if (lt == lt_x)
return better_next(lt_y, a0, b0, b);
if (lt == lt_y)
return better_next(lt_x, a0, b0, b);
abort();
}
/*
* In order to obtain a stable order, we sort points equal on the measured
* coordinate also by xy:
*
* if (*a < a0) use *a
* else if (*a == a0 && *a <xy a0) use *a
*/
struct coord meas_find_min(lt_op_type lt, const struct sample *s)
{
struct coord min;
min = s->pos;
while (s) {
if (lt(s->pos, min) ||
(!lt(min, s->pos) && lt_xy(s->pos, min)))
min = s->pos;
s = s->next;
}
return min;
}
struct coord meas_find_next(lt_op_type lt, const struct sample *s,
struct coord ref)
{
struct coord next;
next = s->pos;
while (s) {
if (better_next(lt, ref, next, s->pos))
next = s->pos;
s = s->next;
}
return next;
}
struct coord meas_find_max(lt_op_type lt, const struct sample *s)
{
struct coord max;
max = s->pos;
while (s) {
if (lt(max, s->pos) ||
(!lt(s->pos, max) && lt_xy(max, s->pos)))
max = s->pos;
s = s->next;
}
return max;
}
int instantiate_meas(void)
{
struct meas *meas;
struct coord a0, b0;
lt_op_type lt;
struct num offset;
for (meas = measurements; meas; meas = meas->next) {
if (!meas->low->samples || !meas->high->samples)
continue;
lt = lt_op[meas->type];
a0 = meas_find_min(lt, meas->low->samples);
if (is_next[meas->type])
b0 = meas_find_next(lt, meas->high->samples, a0);
else
b0 = meas_find_max(lt, meas->high->samples);
offset = eval_unit(meas->offset, root_frame);
if (is_undef(offset))
return 0;
inst_meas(NULL, meas,
meas->inverted ? b0 : a0, meas->inverted ? a0 : b0,
offset.n);
}
return 1;
}