/* * inst.c - Instance structures * * 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 #include #include #include "util.h" #include "coord.h" #include "expr.h" #include "obj.h" #include "gui_status.h" #include "gui_status.h" #include "gui_inst.h" #include "inst.h" struct inst_ops { void (*debug)(struct inst *self); void (*save)(FILE *file, struct inst *self); void (*draw)(struct inst *self, struct draw_ctx *ctx); void (*hover)(struct inst *self, struct draw_ctx *ctx); unit_type (*distance)(struct inst *self, struct coord pos, unit_type scale); void (*select)(struct inst *self); }; enum inst_prio { ip_frame, /* frames have their own selection */ ip_pad, /* pads also accept clicks inside */ ip_circ, /* circles don't overlap easily */ ip_arc, /* arc are like circles, just shorter */ ip_rect, /* rectangles have plenty of sides */ ip_meas, /* mesurements are like lines but set a bit apart */ ip_line, /* lines are easly overlapped by other things */ ip_vec, /* vectors only have the end point */ ip_n, /* number of priorities */ }; #define FOR_INST_PRIOS_UP(prio) \ for (prio = 0; prio != ip_n; prio++) #define FOR_INST_PRIOS_DOWN(prio) \ for (prio = ip_n-1; prio != (enum inst_prio) -1; prio--) #define FOR_INSTS_UP(prio, inst) \ FOR_INST_PRIOS_UP(prio) \ for (inst = insts[prio]; inst; inst = inst->next) #define FOR_INSTS_DOWN(prio, inst) \ FOR_INST_PRIOS_DOWN(prio) \ for (inst = insts[prio]; inst; inst = inst->next) struct inst *selected_inst = NULL; struct bbox active_frame_bbox; static struct inst *curr_frame = NULL; static struct inst *insts[ip_n], **next_inst[ip_n]; static struct inst *prev_insts[ip_n]; static unsigned long active_set = 0; #define IS_ACTIVE ((active_set & 1)) /* ----- selection of items not on the canvas ------------------------------ */ static void *selected_outside = NULL; static void (*outside_deselect)(void *item); static void deselect_outside(void) { if (selected_outside && outside_deselect) outside_deselect(selected_outside); selected_outside = NULL; } void inst_select_outside(void *item, void (*deselect)(void *item)) { if (item == selected_outside) return; deselect_outside(); inst_deselect(); selected_outside = item; outside_deselect = deselect; } /* ----- selection --------------------------------------------------------- */ static struct inst_ops vec_ops; static struct inst_ops frame_ops; static void set_path(int on) { struct inst *inst; return; if (inst->ops != &vec_ops && inst->ops != &frame_ops) return; /* @@@ wrong */ for (inst = selected_inst; inst; inst = inst->outer) { if (inst->ops != &vec_ops && inst->ops != &frame_ops) break; inst->in_path = on; } } int inst_select(const struct draw_ctx *ctx, struct coord pos) { enum inst_prio prio; struct inst *inst; int best_dist = 0; /* keep gcc happy */ int dist; deselect_outside(); edit_nothing(); selected_inst = NULL; FOR_INST_PRIOS_DOWN(prio) { for (inst = insts[prio]; inst; inst = inst->next) { if (!inst->active || !inst->ops->distance) continue; dist = inst->ops->distance(inst, pos, ctx->scale); if (dist >= 0 && (!selected_inst || best_dist > dist)) { selected_inst = inst; best_dist = dist; } } if (selected_inst) goto selected; } /* give vectors a second chance */ for (inst = insts[ip_vec]; inst; inst = inst->next) { if (!inst->active) continue; dist = gui_dist_vec_fallback(inst, pos, ctx->scale); if (dist >= 0 && (!selected_inst || best_dist > dist)) { selected_inst = inst; best_dist = dist; } } if (!selected_inst) return 0; selected: set_path(1); if (selected_inst->ops->select) selected_inst->ops->select(selected_inst); return 1; } struct inst *inst_find_point(const struct draw_ctx *ctx, struct coord pos) { struct inst *inst, *found; int best_dist = 0; /* keep gcc happy */ int dist; found = NULL; for (inst = insts[ip_frame]; inst; inst = inst->next) { if (!inst->active || !inst->ops->distance) continue; dist = inst->ops->distance(inst, pos, ctx->scale); if (dist >= 0 && (!found || best_dist > dist)) { found = inst; best_dist = dist; } } if (found) return found; for (inst = insts[ip_vec]; inst; inst = inst->next) { if (!inst->active || !inst->ops->distance) continue; dist = inst->ops->distance(inst, pos, ctx->scale); if (dist >= 0 && (!found || best_dist > dist)) { found = inst; best_dist = dist; } } return found; } struct coord inst_get_point(const struct inst *inst) { if (inst->ops == &vec_ops) return inst->u.rect.end; if (inst->ops == &frame_ops) return inst->base; abort(); } struct vec *inst_get_ref(const struct inst *inst) { if (inst->ops == &vec_ops) { inst->vec->n_refs++; return inst->vec; } if (inst->ops == &frame_ops) return NULL; abort(); } void inst_deselect(void) { if (selected_inst) set_path(0); deselect_outside(); status_set_type_x(""); status_set_type_y(""); status_set_type_entry(""); status_set_name(""); status_set_x(""); status_set_y(""); status_set_r(""); status_set_angle(""); selected_inst = NULL; edit_nothing(); } static void rect_status(struct coord a, struct coord b, unit_type width) { struct coord d = sub_vec(b, a); double angle; status_set_xy(d); if (!d.x && !d.y) status_set_angle("a = 0 deg"); else { angle = atan2(d.y, d.x)/M_PI*180.0; if (angle < 0) angle += 360; status_set_angle("a = %3.1f deg", angle); } status_set_r("r = %5.2f mm", hypot(units_to_mm(d.x), units_to_mm(d.y))); if (width != -1) { status_set_type_entry("width ="); status_set_name("%5.2f mm", units_to_mm(width)); } } /* ----- helper functions for instance creation ---------------------------- */ static void update_bbox(struct bbox *bbox, struct coord coord) { if (bbox->min.x > coord.x) bbox->min.x = coord.x; if (bbox->max.x < coord.x) bbox->max.x = coord.x; if (bbox->min.y > coord.y) bbox->min.y = coord.y; if (bbox->max.y < coord.y) bbox->max.y = coord.y; } static void propagate_bbox(const struct inst *inst) { update_bbox(&curr_frame->bbox, inst->bbox.min); update_bbox(&curr_frame->bbox, inst->bbox.max); } static void grow_bbox_by_width(struct bbox *bbox, unit_type width) { bbox->min.x -= width/2; bbox->min.y -= width/2; bbox->max.x += width/2; bbox->max.y += width/2; } static struct inst *add_inst(const struct inst_ops *ops, enum inst_prio prio, struct coord base) { struct inst *inst; inst = alloc_type(struct inst); inst->ops = ops; inst->base = inst->bbox.min = inst->bbox.max = base; inst->outer = curr_frame; inst->active = IS_ACTIVE; inst->in_path = 0; inst->next = NULL; *next_inst[prio] = inst; next_inst[prio] = &inst->next; return inst; } /* ----- vec --------------------------------------------------------------- */ static void vec_op_debug(struct inst *self) { printf("vec %lg, %lg -> %lg, %lg\n", units_to_mm(self->base.x), units_to_mm(self->base.y), units_to_mm(self->u.rect.end.x), units_to_mm(self->u.rect.end.y)); } static int validate_vec_name(const char *s, void *ctx) { struct vec *vec = ctx; const struct vec *walk; if (!is_id(s)) return 0; for (walk = vec->frame->vecs; walk; walk = walk->next) if (walk->name && !strcmp(walk->name, s)) return 0; return 1; } static void vec_op_select(struct inst *self) { status_set_type_entry("ref ="); status_set_name(self->vec->name ? self->vec->name : ""); rect_status(self->base, self->u.rect.end, -1); edit_unique_null(&self->vec->name, validate_vec_name, self->vec); edit_x(&self->vec->x); edit_y(&self->vec->y); } static struct inst_ops vec_ops = { .debug = vec_op_debug, .draw = gui_draw_vec, .hover = gui_hover_vec, .distance = gui_dist_vec, .select = vec_op_select, }; int inst_vec(struct vec *vec, struct coord base) { struct inst *inst; inst = add_inst(&vec_ops, ip_vec, base); inst->vec = vec; inst->u.rect.end = vec->pos; update_bbox(&inst->bbox, vec->pos); propagate_bbox(inst); return 1; } /* ----- line -------------------------------------------------------------- */ static void line_op_debug(struct inst *self) { printf("line %lg, %lg / %lg, %lg\n", units_to_mm(self->base.x), units_to_mm(self->base.y), units_to_mm(self->u.rect.end.x), units_to_mm(self->u.rect.end.y)); } static void line_op_select(struct inst *self) { rect_status(self->bbox.min, self->bbox.max, self->u.rect.width); edit_expr(&self->obj->u.line.width); } static struct inst_ops line_ops = { .debug = line_op_debug, .draw = gui_draw_line, .distance = gui_dist_line, .select = line_op_select, }; int inst_line(struct obj *obj, struct coord a, struct coord b, unit_type width) { struct inst *inst; inst = add_inst(&line_ops, ip_line, a); inst->obj = obj; inst->u.rect.end = b; inst->u.rect.width = width; update_bbox(&inst->bbox, b); grow_bbox_by_width(&inst->bbox, width); propagate_bbox(inst); return 1; } /* ----- rect -------------------------------------------------------------- */ static void rect_op_debug(struct inst *self) { printf("rect %lg, %lg / %lg, %lg\n", units_to_mm(self->base.x), units_to_mm(self->base.y), units_to_mm(self->u.rect.end.x), units_to_mm(self->u.rect.end.y)); } static void rect_op_select(struct inst *self) { rect_status(self->bbox.min, self->bbox.max, self->u.rect.width); edit_expr(&self->obj->u.rect.width); } static struct inst_ops rect_ops = { .debug = rect_op_debug, .draw = gui_draw_rect, .distance = gui_dist_rect, .select = rect_op_select, }; int inst_rect(struct obj *obj, struct coord a, struct coord b, unit_type width) { struct inst *inst; inst = add_inst(&rect_ops, ip_rect, a); inst->obj = obj; inst->u.rect.end = b; inst->u.rect.width = width; update_bbox(&inst->bbox, b); grow_bbox_by_width(&inst->bbox, width); propagate_bbox(inst); return 1; } /* ----- pad --------------------------------------------------------------- */ static void pad_op_debug(struct inst *self) { printf("pad \"%s\" %lg, %lg / %lg, %lg\n", self->u.name, units_to_mm(self->bbox.min.x), units_to_mm(self->bbox.min.y), units_to_mm(self->bbox.max.x), units_to_mm(self->bbox.max.y)); } static int validate_pad_name(const char *s, void *ctx) { char *tmp; tmp = expand(s, NULL); if (!tmp) return 0; free(tmp); return 1; } static void pad_op_select(struct inst *self) { status_set_type_entry("label ="); status_set_name(self->u.name); rect_status(self->bbox.min, self->bbox.max, -1); edit_name(&self->obj->u.pad.name, validate_pad_name, NULL); } static struct inst_ops pad_ops = { .debug = pad_op_debug, .draw = gui_draw_pad, .distance = gui_dist_pad, .select = pad_op_select, }; int inst_pad(struct obj *obj, const char *name, struct coord a, struct coord b) { struct inst *inst; inst = add_inst(&pad_ops, ip_pad, a); inst->obj = obj; inst->u.name = stralloc(name); update_bbox(&inst->bbox, b); propagate_bbox(inst); return 1; } /* ----- arc --------------------------------------------------------------- */ static void arc_op_debug(struct inst *self) { printf("arc %lg, %lg radius %lg %lg ... %lg\n", units_to_mm(self->base.x), units_to_mm(self->base.y), units_to_mm(self->u.arc.r), self->u.arc.a1, self->u.arc.a2); } static void arc_op_select(struct inst *self) { status_set_xy(self->base); status_set_angle("a = %3.1f deg", self->u.arc.a1 == self->u.arc.a2 ? 360 : self->u.arc.a2-self->u.arc.a1); status_set_r("r = %5.2f mm", units_to_mm(self->u.arc.r)); status_set_type_entry("width ="); status_set_name("%5.2f mm", units_to_mm(self->u.arc.width)); edit_expr(&self->obj->u.arc.width); } static struct inst_ops arc_ops = { .debug = arc_op_debug, .draw = gui_draw_arc, .distance = gui_dist_arc, .select = arc_op_select, }; int inst_arc(struct obj *obj, struct coord center, struct coord start, struct coord end, unit_type width) { struct inst *inst; double r, a1, a2; inst = add_inst(&arc_ops, ip_arc, center); inst->obj = obj; r = hypot(start.x-center.x, start.y-center.y); a1 = atan2(start.y-center.y, start.x-center.x)/M_PI*180.0; a2 = atan2(end.y-center.y, end.x-center.x)/M_PI*180.0; if (a1 < 0) a1 += 360.0; if (a2 < 0) a2 += 360.0; inst->u.arc.r = r; inst->u.arc.a1 = a1; inst->u.arc.a2 = a2; inst->u.arc.width = width; inst->bbox.min.x = center.x-r; inst->bbox.max.x = center.x+r; inst->bbox.min.y = center.y-r; inst->bbox.max.y = center.y+r; grow_bbox_by_width(&inst->bbox, width); propagate_bbox(inst); return 1; } /* ----- measurement ------------------------------------------------------- */ static void meas_op_debug(struct inst *self) { printf("meas %lg, %lg / %lg, %lg offset %lg\n", units_to_mm(self->base.x), units_to_mm(self->base.y), units_to_mm(self->u.meas.end.x), units_to_mm(self->u.meas.end.y), units_to_mm(self->u.meas.offset)); } static void meas_op_select(struct inst *self) { rect_status(self->bbox.min, self->bbox.max, -1); status_set_type_entry("width ="); status_set_name("%5.2f mm", units_to_mm(self->u.meas.offset)); edit_expr(&self->obj->u.meas.offset); } static struct inst_ops meas_ops = { .debug = meas_op_debug, .draw = gui_draw_meas, .distance = gui_dist_meas, .select = meas_op_select, }; int inst_meas(struct obj *obj, struct coord from, struct coord to, unit_type offset) { struct inst *inst; inst = add_inst(&meas_ops, ip_meas, from); inst->obj = obj; inst->u.meas.end = to; inst->u.meas.offset = offset; /* @@@ our bbox is actually a bit more complex than this */ update_bbox(&inst->bbox, to); propagate_bbox(inst); return 1; } /* ----- active instance --------------------------------------------------- */ void inst_begin_active(int active) { active_set = (active_set << 1) | active; } void inst_end_active(void) { active_set >>= 1; } /* ----- frame ------------------------------------------------------------- */ static void frame_op_debug(struct inst *self) { printf("frame %s @ %lg, %lg\n", self->u.frame.ref->name ? self->u.frame.ref->name : "(root)", units_to_mm(self->base.x), units_to_mm(self->base.y)); } static struct inst_ops frame_ops = { .debug = frame_op_debug, .draw = gui_draw_frame, .hover = gui_hover_frame, }; void inst_begin_frame(const struct frame *frame, struct coord base, int active) { struct inst *inst; inst = add_inst(&frame_ops, ip_frame, base); inst->u.frame.ref = frame; inst->active = active; curr_frame = inst; } void inst_end_frame(const struct frame *frame) { struct inst *inst = curr_frame; curr_frame = curr_frame->outer; if (curr_frame) propagate_bbox(inst); if (inst->active && frame == active_frame) active_frame_bbox = inst->bbox; } /* ----- misc. ------------------------------------------------------------- */ struct bbox inst_get_bbox(void) { return insts[ip_frame]->bbox; } static void inst_free(struct inst *list[ip_n]) { enum inst_prio prio; struct inst *next; FOR_INST_PRIOS_UP(prio) while (list[prio]) { next = list[prio]->next; free(list[prio]); list[prio] = next; } } void inst_start(void) { static struct bbox bbox_zero = { { 0, 0 }, { 0, 0 }}; enum inst_prio prio; active_frame_bbox = bbox_zero; FOR_INST_PRIOS_UP(prio) { prev_insts[prio] = insts[prio]; insts[prio] = NULL; next_inst[prio] = &insts[prio]; } } void inst_commit(void) { inst_free(prev_insts); } void inst_revert(void) { enum inst_prio prio; inst_free(insts); FOR_INST_PRIOS_UP(prio) insts[prio] = prev_insts[prio]; } void inst_draw(struct draw_ctx *ctx) { enum inst_prio prio; struct inst *inst; FOR_INSTS_UP(prio, inst) if (!inst->active && inst->ops->draw) inst->ops->draw(inst, ctx); FOR_INSTS_UP(prio, inst) if (prio != ip_frame && inst->active && inst != selected_inst && inst->ops->draw) inst->ops->draw(inst, ctx); for (inst = insts[ip_frame]; inst; inst = inst->next) if (inst->active && inst != selected_inst && inst->ops->draw) inst->ops->draw(inst, ctx); if (selected_inst && selected_inst->ops->draw) selected_inst->ops->draw(selected_inst, ctx); } void inst_hover(struct inst *inst, struct draw_ctx *ctx, int on) { if (!inst->ops->hover) return; if (on) inst->ops->hover(inst, ctx); else inst->ops->draw(inst, ctx); } void inst_debug(void) { enum inst_prio prio; struct inst *inst; FOR_INSTS_UP(prio, inst) inst->ops->debug(inst); }