fped/gui_tool.c

/*
 * gui_tool.c - GUI, tool bar
 *
 * Written 2009-2012 by Werner Almesberger
 * Copyright 2009-2012 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 <math.h>
#include <assert.h>
#include <gtk/gtk.h>

#include "util.h"
#include "inst.h"
#include "meas.h"
#include "obj.h"
#include "gui_util.h"
#include "gui_style.h"
#include "gui_inst.h"
#include "gui_over.h"
#include "gui_canvas.h"
#include "gui_status.h"
#include "gui.h"
#include "gui_meas.h"
#include "gui_tool.h"


#include "icons/arc.xpm"
#include "icons/circ.xpm"
#include "icons/frame.xpm"
#include "icons/line.xpm"
#include "icons/meas.xpm"
#include "icons/meas_x.xpm"
#include "icons/meas_y.xpm"
#include "icons/pad.xpm"
#include "icons/rpad.xpm"
#include "icons/hole.xpm"
#include "icons/point.xpm"
#include "icons/delete.xpm"
#include "icons/delete_off.xpm"
#include "icons/rect.xpm"
#include "icons/vec.xpm"


static GtkWidget *ev_point, *ev_delete;
static GtkWidget *active_tool;
static struct tool_ops *active_ops = NULL;
static struct inst *hover_inst = NULL;
static GtkWidget *delete_image[2];

static struct drag_state {
	struct inst *inst; /* non-NULL if dragging an existing object */
	struct inst *new; /* non-NULL if dragging a new object */
	int anchors_n; /* number of anchors, 0 if no moving */
	int anchor_i; /* current anchor */
	struct vec **anchors[3];
} drag = {
	.new = NULL,
	.anchors_n = 0,
};

static struct coord last_canvas_pos;


static struct vec *new_vec(struct inst *base)
{
	struct vec *vec, **walk;

	vec = alloc_type(struct vec);
	vec->nul_tag = 0;
	vec->name = NULL;
	vec->base = inst_get_vec(base);
	vec->next = NULL;
	vec->frame = active_frame;
	for (walk = &active_frame->vecs; *walk; walk = &(*walk)->next);
	*walk = vec;
	return vec;
}


struct obj *new_obj_unconnected(enum obj_type type, struct inst *base)
{
	struct obj *obj;

	obj = alloc_type(struct obj);
	obj->type = type;
	obj->name = NULL;
	obj->frame = active_frame;
	obj->base = inst_get_vec(base);
	obj->next = NULL;
	obj->lineno = 0;
	return obj;
}


void connect_obj(struct frame *frame, struct obj *obj)
{
	struct obj **walk;

	obj->frame = frame;
	for (walk = &frame->objs; *walk; walk = &(*walk)->next);
	*walk = obj;
}


static struct obj *new_obj(enum obj_type type, struct inst *base)
{
	struct obj *obj;

	obj = new_obj_unconnected(type, base);
	connect_obj(active_frame, obj);
	return obj;
}


/* ----- shared functions -------------------------------------------------- */


struct pix_buf *draw_move_line_common(struct inst *inst,
    struct coord end, struct coord pos, int i)
{
	struct coord from, to;
	struct pix_buf *buf;

	from = translate(inst->base);
	to = translate(end);
	pos = translate(pos);
	switch (i) {
	case 0:
		from = pos;
		break;
	case 1:
		to = pos;
		break;
	default:
		abort();
	}
	buf = save_pix_buf(DA, from.x, from.y, to.x, to.y, 1);
	gdk_draw_line(DA, gc_drag, from.x, from.y, to.x, to.y);
	return buf;
}


static struct pix_buf *draw_move_rect_common(struct inst *inst,
    struct coord other, struct coord pos, int i)
{
	struct coord min, max;
	struct pix_buf *buf;

	min = translate(inst->base);
	max = translate(other);
	pos = translate(pos);
	switch (i) {
	case 0:
		min = pos;
		break;
	case 1:
		max = pos;
		break;
	default:
		abort();
	}
	sort_coord(&min, &max);
	buf = save_pix_buf(DA, min.x, min.y, max.x, max.y, 1);
	gdk_draw_rectangle(DA, gc_drag, FALSE,
	    min.x, min.y, max.x-min.x, max.y-min.y);
	return buf;
}


static struct pix_buf *hover_common(GdkGC *gc, struct coord center, unit_type r)
{
	struct pix_buf *buf;

	center = translate(center);
	buf = save_pix_buf(DA,
	    center.x-r, center.y-r, center.x+r, center.y+r, 2);
	draw_circle(DA, gc, FALSE, center.x, center.y, VEC_EYE_R);
	return buf;
}


/* ----- delete ------------------------------------------------------------ */


static void tool_selected_delete(void)
{
	if (selected_inst) {
		tool_dehover();
		inst_delete(selected_inst);
		change_world();
	}
	tool_reset();
}


static struct tool_ops delete_ops = {
	.tool_selected	= tool_selected_delete,
};


void tool_selected_inst(struct inst *inst)
{
	set_image(ev_delete, delete_image[inst != NULL]);
}


/* ----- vec --------------------------------------------------------------- */


static struct coord gridify(struct coord base, struct coord pos)
{
	struct coord new;
	unit_type unit;

	switch (curr_unit) {
	case curr_unit_mm:
	case curr_unit_auto:
		unit = mm_to_units(0.1);
		break;
	case curr_unit_mil:
		unit = mil_to_units(10);
		break;
	default:
		abort();
	}
	new.x = pos.x-((pos.x-base.x) % unit);
	new.y = pos.y-((pos.y-base.y) % unit);
	if (new.x != base.x || new.y != base.y)
		return new;
	if (fabs(pos.x-base.x) > fabs(pos.y-base.y))
		new.x += pos.x > base.x ? unit : -unit;
	else
		new.y += pos.y > base.y ? unit : -unit;
	return new;
}


static struct pix_buf *drag_new_vec(struct inst *from, struct coord to)
{
	struct coord pos;
	struct pix_buf *buf;

	pos = inst_get_point(from);
	to = gridify(pos, to);
	status_set_type_x(NULL, "dX =");
	status_set_type_y(NULL, "dX =");
	/* @@@ use status_set_xy */
	switch (curr_unit) {
	case curr_unit_mm:
	case curr_unit_auto:
		status_set_x(NULL, "%lg mm", units_to_mm(to.x-pos.x));
		status_set_y(NULL, "%lg mm", units_to_mm(to.y-pos.y));
		break;
	case curr_unit_mil:
		status_set_x(NULL, "%lg mil", units_to_mil(to.x-pos.x));
		status_set_y(NULL, "%lg mil", units_to_mil(to.y-pos.y));
		break;
	default:
		abort();
	}
	pos = translate(pos);
	to = translate(to);
	buf = save_pix_buf(DA, pos.x, pos.y, to.x, to.y, 1);
	gdk_draw_line(DA, gc_drag, pos.x, pos.y, to.x, to.y);
	return buf;
}


struct pix_buf *draw_move_vec(struct inst *inst, struct coord pos, int i)
{
	return draw_move_line_common(inst,
	    add_vec(sub_vec(inst->u.vec.end, inst->base), pos), pos, i);
}


struct pix_buf *gui_hover_vec(struct inst *self)
{
	return hover_common(gc_vec[mode_hover],
	    self->u.vec.end, VEC_EYE_R);
}


static int end_new_raw_vec(struct inst *from, struct coord to)
{
	struct vec *vec;
	struct coord pos;

	vec = new_vec(from);
	pos = inst_get_point(from);
	to = gridify(pos, to);
	switch (curr_unit) {
	case curr_unit_mm:
	case curr_unit_auto:
		vec->x = new_num(make_mm(units_to_mm(to.x-pos.x)));
		vec->y = new_num(make_mm(units_to_mm(to.y-pos.y)));
		break;
	case curr_unit_mil:
		vec->x = new_num(make_mil(units_to_mil(to.x-pos.x)));
		vec->y = new_num(make_mil(units_to_mil(to.y-pos.y)));
		break;
	default:
		abort();
	}
	return 1;
}


static struct tool_ops vec_ops = {
	.drag_new	= drag_new_vec,
	.end_new_raw	= end_new_raw_vec,
};


/* ----- line -------------------------------------------------------------- */


struct pix_buf *drag_new_line(struct inst *from, struct coord to)
{
	struct coord pos;
	struct pix_buf *buf;

	pos = translate(inst_get_point(from));
	to = translate(to);
	buf = save_pix_buf(DA, pos.x, pos.y, to.x, to.y, 1);
	gdk_draw_line(DA, gc_drag, pos.x, pos.y, to.x, to.y);
	return buf;
}


struct pix_buf *draw_move_line(struct inst *inst, struct coord pos, int i)
{
	return draw_move_line_common(inst, inst->u.rect.end, pos, i);
}


static int end_new_line(struct inst *from, struct inst *to)
{
	struct obj *obj;

	if (from == to)
		return 0;
	obj = new_obj(ot_line, from);
	obj->u.line.other = inst_get_vec(to);
	obj->u.line.width = NULL;
	return 1;
}


static struct tool_ops line_ops = {
	.drag_new	= drag_new_line,
	.end_new	= end_new_line,
};


/* ----- rect -------------------------------------------------------------- */


static struct pix_buf *drag_new_rect(struct inst *from, struct coord to)
{
	struct coord pos;
	struct pix_buf *buf;

	pos = translate(inst_get_point(from));
	to = translate(to);
	sort_coord(&pos, &to);
	buf = save_pix_buf(DA, pos.x, pos.y, to.x, to.y, 1);
	gdk_draw_rectangle(DA, gc_drag, FALSE,
	    pos.x, pos.y, to.x-pos.x, to.y-pos.y);
	return buf;
}


struct pix_buf *draw_move_rect(struct inst *inst, struct coord pos, int i)
{
	return draw_move_rect_common(inst, inst->u.rect.end, pos, i);
}


static int end_new_rect(struct inst *from, struct inst *to)
{
	struct obj *obj;

	if (from == to)
		return 0;
	obj = new_obj(ot_rect, from);
	obj->u.rect.other = inst_get_vec(to);
	obj->u.rect.width = NULL;
	return 1;
}


static struct tool_ops rect_ops = {
	.drag_new	= drag_new_rect,
	.end_new	= end_new_rect,
};


/* ----- pad --------------------------------------------------------------- */


static int end_new_pad(struct inst *from, struct inst *to)
{
	struct obj *obj;

	if (from == to)
		return 0;
	obj = new_obj(ot_pad, from);
	obj->u.pad.other = inst_get_vec(to);
	obj->u.pad.name = stralloc("?");
	obj->u.pad.rounded = 0;
	obj->u.pad.type = pt_normal;
	return 1;
}


struct pix_buf *draw_move_pad(struct inst *inst, struct coord pos, int i)
{
	return draw_move_rect_common(inst, inst->u.pad.other, pos, i);
}


static struct tool_ops pad_ops = {
	.drag_new	= drag_new_rect,
	.end_new	= end_new_pad,
};


/* ----- rounded pad ------------------------------------------------------- */


static int end_new_rpad(struct inst *from, struct inst *to)
{
	struct obj *obj;

	if (from == to)
		return 0;
	obj = new_obj(ot_pad, from);
	obj->u.pad.other = inst_get_vec(to);
	obj->u.pad.name = stralloc("?");
	obj->u.pad.rounded = 1;
	obj->u.pad.type = pt_normal;
	return 1;
}


struct pix_buf *draw_move_rpad(struct inst *inst, struct coord pos, int i)
{
	return draw_move_rect_common(inst, inst->u.pad.other, pos, i);
}


static struct tool_ops rpad_ops = {
	.drag_new	= drag_new_rect,
	.end_new	= end_new_rpad,
};


/* ----- hole -------------------------------------------------------------- */


static int end_new_hole(struct inst *from, struct inst *to)
{
	struct obj *obj;

	if (from == to)
		return 0;
	obj = new_obj(ot_hole, from);
	obj->u.hole.other = inst_get_vec(to);
	return 1;
}


struct pix_buf *draw_move_hole(struct inst *inst, struct coord pos, int i)
{
	return draw_move_rect_common(inst, inst->u.hole.other, pos, i);
}


static struct tool_ops hole_ops = {
	.drag_new	= drag_new_rect,
	.end_new	= end_new_hole,
};


/* ----- circ -------------------------------------------------------------- */


static struct pix_buf *drag_new_circ(struct inst *from, struct coord to)
{
	struct coord pos;
	struct pix_buf *buf;
	double r;

	pos = translate(inst_get_point(from));
	to = translate(to);
	r = hypot(to.x-pos.x, to.y-pos.y);
	buf = save_pix_buf(DA, pos.x-r, pos.y-r, pos.x+r, pos.y+r, 1);
	draw_circle(DA, gc_drag, FALSE, pos.x, pos.y, r);
	return buf;
}


static int end_new_circ(struct inst *from, struct inst *to)
{
	struct obj *obj;

	if (from == to)
		return 0;
	obj = new_obj(ot_arc, from);
	obj->u.arc.start = inst_get_vec(to);
	obj->u.arc.end = inst_get_vec(to);
	obj->u.arc.width = NULL;
	return 1;
}


struct pix_buf *draw_move_arc(struct inst *inst, struct coord pos, int i)
{
	struct coord c, from, to, end;
	double r, r_save, a1, a2;
	struct pix_buf *buf;

	c = translate(inst->base);
	from =
	    translate(rotate_r(inst->base, inst->u.arc.r, inst->u.arc.a1));
	to =
	    translate(rotate_r(inst->base, inst->u.arc.r, inst->u.arc.a2));
	pos = translate(pos);
	switch (i) {
	case 0:
		c = pos;
		break;
	case 2:
		from = pos;
		break;
	case 1:
		to = pos;
		break;
	default:
		abort();
	}
	r = hypot(from.x-c.x, from.y-c.y);
	/*
	 * the screen coordinate system is reversed with y growing downward,
	 * so we have to negate the angles.
	 */
	a1 = -theta(c, from);
	a2 = -theta(c, to);
	if (a2 < a1)
		a2 += 360.0;

	if (i != 2) {
		r_save = r;
	} else {
		r_save = hypot(to.x-c.x, to.y-c.y);
		if (r > r_save)
			r_save = r;
	}
	buf = save_pix_buf(DA,
	    c.x-r_save, c.y-r_save, c.x+r_save, c.y+r_save, 1);
	draw_arc(DA, gc_drag, FALSE, c.x, c.y, r, a1, a2);
	if (i == 1) {
		end = rotate_r(c, r_save, -a2);
		gdk_draw_line(DA, gc_drag, c.x, c.y, end.x, end.y);
	}
	return buf;
}


void do_move_to_arc(struct inst *inst, struct inst *to, int i)
{
	struct vec *vec = inst_get_vec(to);
	struct obj *obj = inst->obj;

	switch (i) {
	case 0:
		obj->base = vec;
		break;
	case 2:
		obj->u.arc.start = vec;
		break;
	case 1:
		obj->u.arc.end = vec;
		break;
	default:
		abort();
	}
}


static struct tool_ops circ_ops = {
	.drag_new	= drag_new_circ,
	.end_new	= end_new_circ,
};


/* ----- frame helper ------------------------------------------------------ */


int is_parent_of(const struct frame *p, const struct frame *c)
{
	const struct obj *obj;

	if (p == c)
		return 1;
	for (obj = p->objs; obj; obj = obj->next)
		if (obj->type == ot_frame)
			if (is_parent_of(obj->u.frame.ref, c))
				return 1;
	return 0;
}


/* ----- frame ------------------------------------------------------------- */


static struct frame *locked_frame = NULL;


struct pix_buf *draw_move_frame(struct inst *inst, struct coord pos, int i)
{
	struct pix_buf *buf;
	int r = FRAME_EYE_R2;

	pos = translate(pos);
	buf = save_pix_buf(DA, pos.x-r, pos.y-r, pos.x+r, pos.y+r, 1);
	draw_arc(DA, gc_drag, FALSE, pos.x, pos.y, r, 0, 360);
	return buf;
}


struct pix_buf *gui_hover_frame(struct inst *self)
{
	return hover_common(gc_frame[mode_hover],
	    self->base, FRAME_EYE_R2);
}


static int end_new_frame(struct inst *from, struct inst *to)
{
	struct obj *obj;

	if (!locked_frame || is_parent_of(locked_frame, active_frame))
		return 0;
	obj = new_obj(ot_frame, from);
	obj->u.frame.ref = locked_frame;
	obj->u.frame.lineno = 0;
	if (!locked_frame->active_ref)
		locked_frame->active_ref = obj;
	locked_frame = NULL;
	tool_reset();
	return 1;
}


static struct tool_ops frame_ops = {
	.tool_selected	= NULL,
	.drag_new	= NULL,
	.end_new	= end_new_frame,
};


/* ----- moving references ------------------------------------------------- */


#if 0
static int may_move(struct inst *curr)
{
	if (!selected_inst)
		return 0;
	if (drag.anchors_n)
		return 0; /* already moving something else */
	drag.anchors_n = inst_anchors(selected_inst, drag.anchors);
	for (drag.anchor_i = 0; drag.anchor_i != drag.anchors_n;
	    drag.anchor_i++)
		if (*drag.anchors[drag.anchor_i] == inst_get_vec(curr))
			return 1;
	drag.anchors_n = 0;
	return 0;
}
#endif


static int would_be_equal(const struct drag_state *state,
    int a, int b, struct inst *curr)
{
	const struct vec *va;
	const struct vec *vb;

	va = a == state->anchor_i ? inst_get_vec(curr) : *state->anchors[a];
	vb = b == state->anchor_i ? inst_get_vec(curr) : *state->anchors[b];
	return va == vb;
}


static int may_move_to(const struct drag_state *state, struct inst *curr)
{
	assert(drag.inst);
	assert(state->anchors_n);
	switch (state->anchors_n) {
	case 3:
		if (would_be_equal(state, 0, 2, curr))
			return 0;
		/* fall through */
	case 2:
		if (would_be_equal(state, 0, 1, curr))
			return 0;
		/* fall through */
	case 1:
		return 1;
	default:
		abort();
	}
}


static void do_move_to(struct drag_state *state, struct inst *curr)
{
	assert(state->inst->ops->find_point || may_move_to(state, curr));
	*state->anchors[state->anchor_i] = inst_get_vec(curr);
}


/* ----- hover ------------------------------------------------------------- */


static struct pix_buf *hover_save_and_draw(void *user)
{
	return inst_hover(hover_inst);
}


void tool_dehover(void)
{
	if (!hover_inst)
		return;
	over_leave();
	hover_inst = NULL;
}


/*
 * When hovering, we have to consider the following states:
 *
 * selected (selected_inst != NULL)
 * |  dragging new (drag.new != NULL)
 * |  |  dragging existing (drag.anchors_n != 0)
 * |  |  |  tool selected (active_ops)
 * |  |  |  |
 * Y  N  N  N  highlight if inst_find_point_selected else don't
 * Y  N  N  Y  highlight if inst_find_point_selected else fall over to tool
 * -  Y  N  -  highlight if inst_find_point / active_ops->find_point else don't
 * -  N  Y  -  highlight if may_move_to else don't
 * -  Y  Y  -  invalid state
 * N  N  N  Y  highlight if inst_find_point / active_ops->find_point else don't
 * N  N  N  N  don't highlight
 */

static struct inst *get_hover_inst(struct coord pos)
{
	struct inst *inst;
	int i;

	if (drag.new) {
		if (active_ops->find_point)
			return active_ops->find_point(pos);
		return inst_find_point(pos);
	}
	if (drag.anchors_n) {
		if (drag.inst->ops->find_point)
			return drag.inst->ops->find_point(drag.inst, pos);
		inst = inst_find_point(pos);
		if (!inst)
			return NULL;
		return may_move_to(&drag, inst) ? inst : NULL;
	}
	if (selected_inst) {
		i = inst_find_point_selected(pos, &inst);
		if (i != -1)
			return inst;
	}
	if (!active_ops)
		return NULL;
	if (active_ops->find_point)
		return active_ops->find_point(pos);
	return inst_find_point(pos);
}


int tool_hover(struct coord pos)
{
	struct inst *curr;

	curr = get_hover_inst(pos);
#if 0
	if ((drag.new && curr == drag.new) || (drag.inst && curr == drag.inst))
		return;
	if (curr && !active_ops) {
		if (drag.anchors_n) {
			if (!may_move_to(&drag, curr))
				curr = NULL;
		} else {
			if (!may_move(curr))
				curr = NULL;
			drag.anchors_n = 0;
		}
	}
got:
#endif

	if (curr == hover_inst)
		return !!curr;
	if (hover_inst) {
		over_leave();
		hover_inst = NULL;
	}
	if (!curr)
		return 0;
	hover_inst = curr;
	over_enter(hover_save_and_draw, NULL);
	return 1;
}


/* ----- frame drag and drop ----------------------------------------------- */


/*
 * When dragging a frame, we temporarily replace the selected tool (if any)
 * with the frame tool.
 */


static struct tool_ops *pushed_ops;


void tool_push_frame(struct frame *frame)
{
	pushed_ops = active_ops;
	locked_frame = frame;
	active_ops = &frame_ops;
	/*
	 * We don't need to call tool_selected since, with drag and drop, the
	 * frame tools doesn't need activation anymore.
	 */
}


static int do_place_frame(struct frame *frame, struct coord pos)
{
	if (!get_hover_inst(pos))
		return 0;
	tool_consider_drag(pos);
	return 1;
}


/*
 * Gtk calls drag-leave, drag-end, and only then drag-drop. So we'll already
 * have cleaned up in tool_pop_frame before we get here. In order to place the
 * frame, we need to activate the frame tool again.
 *
 * @@@ bug: there's a tool_reset in this path, so we'll lose the widget of the
 * tool that's really active. This problem will vanish when scrapping the
 * old-style frame referenes.
 */

int tool_place_frame(struct frame *frame, struct coord pos)
{
	int ok;

	active_ops = &frame_ops;
	ok = do_place_frame(frame, pos);
	active_ops = pushed_ops;
	return ok;
}


void tool_pop_frame(void)
{
	if (!active_tool)
		return;
	active_ops = pushed_ops;
	/*
	 * We don't need to call tool_selected since the only tool that could
	 * use this would be the delete tool, and there the semantics would be
	 * undesirable. Also, the delete tool never stays active, so it can't
	 * appear together with drag and drop anyway.
	 */
}


/* ----- tooltip ----------------------------------------------------------- */


const char *tool_tip(struct coord pos)
{
	struct inst *inst;

	inst = get_hover_inst(pos);
	if (!inst)
		return NULL;

	/*
	 * The logic below follows exactly what happens in get_hover_inst.
	 */

	if (drag.new)
		return "End here";
	if (drag.anchors_n)
		return "Move here";
	if (selected_inst)
		return "Move this point";
	return "Start here";
}


/* ----- mouse actions ----------------------------------------------------- */


static struct pix_buf *drag_save_and_draw(void *user, struct coord to)
{
	if (drag.new) {
		assert(active_ops);
		return active_ops->drag_new(drag.new, to);
	} else {
		return inst_draw_move(drag.inst, to, drag.anchor_i);
	}
}


/*
 * When considering dragging, we have the following states:
 *
 * selected (selected_inst != NULL)
 * |  tool selected (active_ops)
 * |  |
 * N  N  don't
 * Y  -  if we could drag, drag_new/end_new, else fall over to tool
 * N  Y  else single-click creation, else drag_new/end_new
 */

int tool_consider_drag(struct coord pos)
{
	struct inst *curr;

	assert(!drag.new);
	assert(!drag.anchors_n);
	last_canvas_pos = translate(pos);

	if (!selected_inst && !active_ops)
		return 0;
	if (selected_inst) {
		drag.anchor_i = inst_find_point_selected(pos, NULL);
		if (drag.anchor_i != -1) {
			tool_dehover();
			drag.inst = selected_inst;
			drag.new = NULL;
			drag.anchors_n =
			    inst_anchors(selected_inst, drag.anchors);
			over_begin(drag_save_and_draw, NULL, pos);
			inst_begin_drag_move(selected_inst, drag.anchor_i);
			return 1;
		}
	}
	if (!active_ops)
		return 0;

	curr = get_hover_inst(pos);
	if (!curr)
		return 0;

	tool_dehover();

	if (active_ops->drag_new) {
		if (active_ops->begin_drag_new)
			active_ops->begin_drag_new(curr);
		drag.inst = NULL;
		drag.new = curr;
		over_begin(drag_save_and_draw, NULL, pos);
		return 1;
	}

	/* object is created without dragging */
	if (active_ops->end_new(curr, NULL))
		return -1;
	return 0;

}


void tool_drag(struct coord to)
{
	last_canvas_pos = translate(to);
	over_move(to);
}


void tool_cancel_drag(void)
{
	if (drag.anchors_n && drag.inst->ops->end_drag_move)
		drag.inst->ops->end_drag_move();
	drag.new = NULL;
	active_ops = NULL;
	drag.anchors_n = 0;
	over_end();
	tool_dehover();
	tool_reset();
}


int tool_end_drag(struct coord to)
{
	struct drag_state state = drag;
	struct inst *end;
	struct tool_ops *ops = active_ops;

	tool_cancel_drag();
	if (state.new && ops->end_new_raw)
		return ops->end_new_raw(state.new, to);
	if (state.new && ops->find_point) {
		end = ops->find_point(to);
	} else {
		if (state.inst && state.inst->ops->find_point)
			end = state.inst->ops->find_point(state.inst, to);
		else
			end = inst_find_point(to);
	}
	if (!end) {
		if (state.new && ops->cancel_drag_new)
			ops->cancel_drag_new();
		return 0;
	}
	if (state.new)
		return ops->end_new(state.new, end);

	/* if we got the point from find_point, it's authoritative */
	if (!state.inst->ops->find_point && !may_move_to(&state, end))
		return 0;
	if (!inst_do_move_to(state.inst, end, state.anchor_i))
		do_move_to(&state, end);
	return 1;
}


void tool_redraw(void)
{
	struct coord pos;

	over_reset();
	hover_inst = NULL;
	if (!drag.new && !drag.anchors_n)
		return;
	pos = canvas_to_coord(last_canvas_pos.x, last_canvas_pos.y);
	tool_hover(pos);
	over_begin(drag_save_and_draw, NULL, pos);
}


/* ----- Retrieve icons by instance characteristics ------------------------ */


GtkWidget *get_icon_by_inst(const struct inst *inst)
{
	char **image;

	switch (inst->prio) {
	case ip_frame:
		image = xpm_frame;
		break;
	case ip_pad_copper:
	case ip_pad_special:
		image = inst->obj->u.pad.rounded ? xpm_rpad : xpm_pad;
		break;
	case ip_hole:
		image = xpm_hole;
		break;
	case ip_circ:
		image = xpm_circ;
		break;
	case ip_arc:
		image = xpm_arc;
		break;
	case ip_rect:
		image = xpm_rect;
		break;
	case ip_meas:
		switch (inst->obj->u.meas.type) {
		case mt_xy_next:
		case mt_xy_max:
			image = xpm_meas;
			break;
		case mt_x_next:
		case mt_x_max:
			image = xpm_meas_x;
			break;
		case mt_y_next:
		case mt_y_max:
			image = xpm_meas_y;
			break;
		default:
			abort();
		}
		break;
	case ip_line:
		image = xpm_line;
		break;
	case ip_vec:
		image = xpm_vec;
		break;
	default:
		abort();
	}
	return make_transparent_image(DA, image, NULL);
}


/* ----- tool bar creation ------------------------------------------------- */


static void tool_select(GtkWidget *evbox, struct tool_ops *ops)
{
	GdkColor col;

	if (active_tool) {
		if (active_ops && active_ops->tool_deselected)
			active_ops->tool_deselected();
		col = get_color(COLOR_TOOL_UNSELECTED);
		gtk_widget_modify_bg(active_tool, GTK_STATE_NORMAL, &col);
		active_tool = NULL;
	}
	col = get_color(COLOR_TOOL_SELECTED);
	gtk_widget_modify_bg(evbox, GTK_STATE_NORMAL, &col);
	active_tool = evbox;
	active_ops = ops;
	if (ops && ops->tool_selected)
		ops->tool_selected();
}


void tool_reset(void)
{
	over_reset();
	hover_inst = NULL;
	tool_select(ev_point, NULL);
}


static gboolean tool_button_press_event(GtkWidget *widget,
    GdkEventButton *event, gpointer data)
{
	switch (event->button) {
	case 1:
		tool_select(widget, data);
		break;
	}
	return TRUE;
}


static void tool_separator(GtkWidget *bar)
{
	GtkToolItem *item;

	item = gtk_separator_tool_item_new();
	gtk_separator_tool_item_set_draw(GTK_SEPARATOR_TOOL_ITEM(item), FALSE);
	gtk_toolbar_insert(GTK_TOOLBAR(bar), item, -1);
}


GtkWidget *gui_setup_tools(GdkDrawable *drawable)
{
	GtkWidget *bar;

	bar = gtk_toolbar_new();
	gtk_toolbar_set_style(GTK_TOOLBAR(bar), GTK_TOOLBAR_ICONS);
	gtk_toolbar_set_orientation(GTK_TOOLBAR(bar),
	    GTK_ORIENTATION_VERTICAL);

	ev_point = tool_button(bar, drawable, xpm_point,
	    "Select and move items",
	    tool_button_press_event, NULL);
	ev_delete = tool_button(bar, drawable, NULL, NULL,
	     tool_button_press_event, &delete_ops);
	tool_separator(bar);
	tool_button(bar, drawable, xpm_vec,
	    "Add a vector",
	    tool_button_press_event, &vec_ops);
	tool_button(bar, drawable, xpm_pad,
	    "Add a rectangular pad",
	    tool_button_press_event, &pad_ops);
	tool_button(bar, drawable, xpm_rpad,
	    "Add a rounded pad",
	    tool_button_press_event, &rpad_ops);
	tool_button(bar, drawable, xpm_hole,
	    "Add a hole",
	    tool_button_press_event, &hole_ops);
	tool_button(bar, drawable, xpm_line,
	    "Add a silk screen line",
	    tool_button_press_event, &line_ops);
	tool_button(bar, drawable, xpm_rect,
	    "Add a silk screen rectangle",
	    tool_button_press_event, &rect_ops);
	tool_button(bar, drawable, xpm_circ,
	    "Add a silk screen circle or arc",
	    tool_button_press_event, &circ_ops);
	tool_separator(bar);
	tool_button(bar, drawable, xpm_meas,
	    "Add a measurement",
	    tool_button_press_event, &tool_meas_ops);
	tool_button(bar, drawable, xpm_meas_x,
	    "Add a horizontal measurement",
	    tool_button_press_event, &tool_meas_ops_x);
	tool_button(bar, drawable, xpm_meas_y,
	    "Add a vertical measurement",
	    tool_button_press_event, &tool_meas_ops_y);

	delete_image[0] = gtk_widget_ref(make_image(drawable, xpm_delete_off,
	    NULL));
	delete_image[1] = gtk_widget_ref(make_image(drawable, xpm_delete,
	    "Delete the selected item"));
	set_image(ev_delete, delete_image[0]);

	tool_reset();

	return bar;
}


void gui_cleanup_tools(void)
{
	g_object_unref(delete_image[0]);
	g_object_unref(delete_image[1]);
}