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mirror of git://projects.qi-hardware.com/fped.git synced 2024-11-18 07:15:54 +02:00
fped/gui_meas.c
werner b2b3a46119 A bit of cleanup.
- gui_frame_drag.c (FOR_UNORDERED, drag_var_motion, drag_value_motion, 
  drag_frame_motion): moved hard to read loop into helper macro
- capitalized SWAP, to make it clear it's a macro and can multiply side-effects
- TODO: updated discussion of open issues



git-svn-id: http://svn.openmoko.org/trunk/eda/fped@5971 99fdad57-331a-0410-800a-d7fa5415bdb3
2010-05-31 05:53:56 +00:00

471 lines
9.4 KiB
C

/*
* gui_meas.c - GUI, measurements
*
* Written 2009, 2010 by Werner Almesberger
* Copyright 2009, 2010 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 "util.h"
#include "coord.h"
#include "meas.h"
#include "inst.h"
#include "gui_canvas.h"
#include "gui_tool.h"
#include "gui_meas.h"
static struct inst *meas_inst; /* point from which we're dragging */
static enum {
min_to_next_or_max,
max_to_min,
next_to_min,
} mode;
/* ----- measurement type characteristics ---------------------------------- */
static struct meas_dsc {
lt_op_type lt;
enum meas_type type;
} *meas_dsc;
static struct meas_dsc meas_dsc_xy = {
.lt = lt_xy,
.type = mt_xy_next,
};
static struct meas_dsc meas_dsc_x = {
.lt = lt_x,
.type = mt_x_next,
};
static struct meas_dsc meas_dsc_y = {
.lt = lt_y,
.type = mt_y_next,
};
/* ----- min/next/max tester ----------------------------------------------- */
static int is_min(lt_op_type lt, const struct inst *inst)
{
const struct sample *min;
min = meas_find_min(lt, active_pkg->samples[inst->vec->n], NULL);
return coord_eq(inst->u.vec.end, min->pos);
}
static int is_next(lt_op_type lt,
const struct inst *inst, const struct inst *ref)
{
const struct sample *next;
next = meas_find_next(lt, active_pkg->samples[inst->vec->n],
ref->u.vec.end, NULL);
return coord_eq(inst->u.vec.end, next->pos);
}
static int is_max(lt_op_type lt, const struct inst *inst)
{
const struct sample *max;
max = meas_find_max(lt, active_pkg->samples[inst->vec->n], NULL);
return coord_eq(inst->u.vec.end, max->pos);
}
static int is_a_next(lt_op_type lt, struct inst *inst)
{
struct inst *a;
const struct sample *min, *next;
for (a = insts_ip_vec(); a; a = a->next) {
min = meas_find_min(lt, active_pkg->samples[a->vec->n], NULL);
next = meas_find_next(lt, active_pkg->samples[inst->vec->n],
min->pos, NULL);
if (coord_eq(next->pos, inst->u.vec.end))
return 1;
}
return 0;
}
#if 0
static int is_min_of_next(lt_op_type lt,
const struct inst *inst, const struct inst *ref)
{
struct coord min, next;
min = meas_find_min(lt, inst->vec->samples);
next = meas_find_next(lt, ref->vec->samples, min);
return coord_eq(next, ref->u.vec.end);
}
#endif
/* ----- picker functions -------------------------------------------------- */
static int meas_pick_vec_a(struct inst *inst, void *ctx)
{
struct vec *vec = inst->vec;
if (!active_pkg->samples[vec->n])
return 0;
if (is_min(meas_dsc->lt, inst)) {
mode = min_to_next_or_max;
return 1;
}
if (is_max(meas_dsc->lt, inst)) {
mode = max_to_min;
return 1;
}
if (is_a_next(meas_dsc->lt, inst)) {
mode = next_to_min;
return 1;
}
return 0;
}
static int meas_pick_vec_b(struct inst *inst, void *ctx)
{
struct vec *vec = inst->vec;
struct inst *a = ctx;
if (!active_pkg->samples[vec->n])
return 0;
switch (mode) {
case min_to_next_or_max:
if (is_max(meas_dsc->lt, inst))
return 1;
if (is_next(meas_dsc->lt, inst, a))
return 1;
return 0;
case max_to_min:
return is_min(meas_dsc->lt, inst);
case next_to_min:
if (!is_min(meas_dsc->lt, inst))
return 0;
return is_next(meas_dsc->lt, a, inst);
// return is_min_of_next(meas_dsc->lt, inst, a);
default:
abort();
}
}
/* ----- highlighting ------------------------------------------------------ */
static void meas_highlight_a(void)
{
inst_highlight_vecs(meas_pick_vec_a, NULL);
}
static void meas_highlight_b(void)
{
inst_highlight_vecs(meas_pick_vec_b, meas_inst);
}
/* ----- meas -------------------------------------------------------------- */
struct pix_buf *draw_move_meas(struct inst *inst, struct coord pos, int i)
{
return draw_move_line_common(inst, inst->u.meas.end, pos,
inst->obj->u.meas.inverted ? 1-i : i);
}
/* ----- tool selection ---------------------------------------------------- */
static void tool_selected_meas(void)
{
highlight = meas_highlight_a;
redraw();
}
static void tool_selected_meas_xy(void)
{
meas_dsc = &meas_dsc_xy;
tool_selected_meas();
}
static void tool_selected_meas_x(void)
{
meas_dsc = &meas_dsc_x;
tool_selected_meas();
}
static void tool_selected_meas_y(void)
{
meas_dsc = &meas_dsc_y;
tool_selected_meas();
}
static void tool_deselected_meas(void)
{
highlight = NULL;
redraw();
}
/* ----- find start point (new measurement) -------------------------------- */
static int is_highlighted(struct inst *inst, void *user)
{
return inst->u.vec.highlighted;
}
static struct inst *find_point_meas_new(struct coord pos)
{
return inst_find_vec(pos, is_highlighted, NULL);
}
/* ----- begin dragging new measurement ------------------------------------ */
static void begin_drag_new_meas(struct inst *inst)
{
highlight = meas_highlight_b;
meas_inst = inst;
if (is_min(meas_dsc->lt, inst))
mode = min_to_next_or_max;
else if (is_max(meas_dsc->lt, inst))
mode = max_to_min;
else
mode = next_to_min;
redraw();
}
/* ----- end dragging new measurement -------------------------------------- */
static int end_new_meas(struct inst *from, struct inst *to)
{
struct obj *obj;
struct meas *meas;
meas_inst = NULL;
highlight = NULL;
if (from == to)
return 0;
/* it's safe to pass "from" here, but we may change it later */
obj = new_obj_unconnected(ot_meas, from);
connect_obj(frames, obj);
meas = &obj->u.meas;
meas->label = NULL;
switch (mode) {
case min_to_next_or_max:
if (!is_max(meas_dsc->lt, to)) {
meas->type = meas_dsc->type;
} else {
meas->type = meas_dsc->type+3;
}
obj->base = from->vec;
meas->high = to->vec;
break;
case next_to_min:
meas->type = meas_dsc->type;
obj->base = to->vec;
meas->high = from->vec;
break;
case max_to_min:
meas->type = meas_dsc->type+3;
obj->base = to->vec;
meas->high = from->vec;
break;
default:
abort();
}
meas->inverted =
mode == min_to_next_or_max && is_min(meas_dsc->lt, to) ? 0 :
meas_dsc->lt(from->u.vec.end, to->u.vec.end) !=
(mode == min_to_next_or_max);
meas->offset = NULL;
meas_dsc = NULL;
/* we don't support qualifiers through the GUI yet */
meas->low_qual = NULL;
meas->high_qual = NULL;
return 1;
}
static void cancel_drag_new_meas(void)
{
meas_inst = NULL;
highlight = NULL;
redraw();
}
/* ----- begin dragging existing measurement ------------------------------- */
/*
* We didn't record which instance provided the vector we're using here, so we
* have to search for it now.
*/
static struct inst *vec_at(const struct vec *vec, struct coord pos)
{
struct inst *inst;
const struct sample *s;
for (inst = insts_ip_vec(); inst; inst = inst->next)
if (inst->vec == vec)
for (s = active_pkg->samples[vec->n]; s; s = s->next)
if (coord_eq(s->pos, pos))
return inst;
abort();
}
void begin_drag_move_meas(struct inst *inst, int i)
{
const struct meas *meas = &inst->obj->u.meas;
struct coord a, b;
switch (meas->type) {
case mt_xy_next:
case mt_xy_max:
meas_dsc = &meas_dsc_xy;
break;
case mt_x_next:
case mt_x_max:
meas_dsc = &meas_dsc_x;
break;
case mt_y_next:
case mt_y_max:
meas_dsc = &meas_dsc_y;
break;
default:
abort();
}
highlight = meas_highlight_b;
/*
* We're setting up the same conditions as after picking the first
* point when making a new measurement. Thus, we set meas_inst to the
* vector to the endpoint we're not moving.
*/
a = inst->base;
b = inst->u.meas.end;
if (inst->obj->u.meas.inverted)
SWAP(a, b);
switch (i) {
case 0:
mode = meas->type < 3 ? next_to_min : max_to_min;
meas_inst = vec_at(inst->obj->u.meas.high, b);
break;
case 1:
mode = min_to_next_or_max;
meas_inst = vec_at(inst->obj->base, a);
break;
default:
abort();
}
// redraw();
}
/* ----- find end point (existing measurement) ----------------------------- */
struct inst *find_point_meas_move(struct inst *inst, struct coord pos)
{
return inst_find_vec(pos, is_highlighted, NULL);
}
/* ----- end dragging existing measurements -------------------------------- */
void end_drag_move_meas(void)
{
highlight = NULL;
redraw();
}
void do_move_to_meas(struct inst *inst, struct inst *to, int i)
{
struct meas *meas = &inst->obj->u.meas;
switch (i) {
case 0:
inst->obj->base = inst_get_vec(to);
break;
case 1:
meas->high = inst_get_vec(to);
if (is_max(meas_dsc->lt, to))
meas->type = (meas->type % 3)+3;
else
meas->type = (meas->type % 3);
break;
default:
abort();
}
}
/* ----- operations -------------------------------------------------------- */
struct tool_ops tool_meas_ops = {
.tool_selected = tool_selected_meas_xy,
.tool_deselected= tool_deselected_meas,
.find_point = find_point_meas_new,
.begin_drag_new = begin_drag_new_meas,
.drag_new = drag_new_line,
.end_new = end_new_meas,
.cancel_drag_new= cancel_drag_new_meas,
};
struct tool_ops tool_meas_ops_x = {
.tool_selected = tool_selected_meas_x,
.tool_deselected= tool_deselected_meas,
.find_point = find_point_meas_new,
.begin_drag_new = begin_drag_new_meas,
.drag_new = drag_new_line,
.end_new = end_new_meas,
.cancel_drag_new= cancel_drag_new_meas,
};
struct tool_ops tool_meas_ops_y = {
.tool_selected = tool_selected_meas_y,
.tool_deselected= tool_deselected_meas,
.find_point = find_point_meas_new,
.begin_drag_new = begin_drag_new_meas,
.drag_new = drag_new_line,
.end_new = end_new_meas,
.cancel_drag_new= cancel_drag_new_meas,
};