/* * gui/render.c - Render schematics and GUI elements * * Written 2016 by Werner Almesberger * Copyright 2016 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 #include #include "misc/util.h" #include "gfx/cro.h" #include "gfx/gfx.h" #include "kicad/sch.h" #include "kicad/delta.h" #include "gfx/diff.h" #include "gui/aoi.h" #include "gui/over.h" #include "gui/common.h" #define VCS_OVERLAYS_X 5 #define VCS_OVERLAYS_Y 5 #define SHEET_OVERLAYS_X -10 #define SHEET_OVERLAYS_Y 10 #define GLABEL_HIGHLIGHT_PAD 6 /* ----- Helper functions -------------------------------------------------- */ void redraw(const struct gui_ctx *ctx) { gtk_widget_queue_draw(ctx->da); } /* ----- Highlight glabel -------------------------------------------------- */ /* * cd, cx, cy are simplified versions of what cro.c uses. Since we don't * support glabel highlighting in diff mode, we don't need the xe and ye offset * components. */ static inline int cd(int x, float scale) { return x * scale; } static inline int cx(int x, int xo, float scale) { return xo + x * scale; } static inline int cy(int y, int yo, float scale) { return yo + y * scale; } static void highlight_glabel(const struct gui_ctx *ctx, const struct gui_sheet *sheet, cairo_t *cr, int x, int y, float f) { const struct sch_obj *obj; if (!ctx->glabel) return; for (obj = sheet->sch->objs; obj; obj = obj->next) { const struct dwg_bbox *bbox = &obj->u.text.bbox; if (obj->type != sch_obj_glabel) continue; if (strcmp(obj->u.text.s, ctx->glabel)) continue; cairo_rectangle(cr, cx(bbox->x, x, f) - GLABEL_HIGHLIGHT_PAD, cy(bbox->y, y, f) - GLABEL_HIGHLIGHT_PAD, cd(bbox->w, f) + 2 * GLABEL_HIGHLIGHT_PAD, cd(bbox->h, f) + 2 * GLABEL_HIGHLIGHT_PAD); cairo_set_source_rgb(cr, 1, 0.8, 1); cairo_fill(cr); } } /* ----- Draw to screen ---------------------------------------------------- */ static void hack(const struct gui_ctx *ctx, cairo_t *cr) { const struct gui_sheet *new = ctx->curr_sheet; const struct gui_sheet *old = find_corresponding_sheet( ctx->old_hist->sheets, ctx->new_hist->sheets, ctx->curr_sheet); diff_to_canvas(cr, ctx->x, ctx->y, 1.0 / (1 << ctx->zoom), old->gfx_ctx, new->gfx_ctx); } static gboolean on_draw_event(GtkWidget *widget, cairo_t *cr, gpointer user_data) { const struct gui_ctx *ctx = user_data; const struct gui_sheet *sheet = ctx->curr_sheet; GtkAllocation alloc; float f = 1.0 / (1 << ctx->zoom); int x, y; gtk_widget_get_allocation(ctx->da, &alloc); x = -(sheet->xmin + ctx->x) * f + alloc.width / 2; y = -(sheet->ymin + ctx->y) * f + alloc.height / 2; cro_canvas_prepare(cr); if (!ctx->old_hist || ctx->diff_mode == diff_new) { highlight_glabel(ctx, sheet, cr, x, y, f); cro_canvas_draw(sheet->gfx_ctx, cr, x, y, f); } else if (ctx->diff_mode == diff_old) { sheet = find_corresponding_sheet(ctx->old_hist->sheets, ctx->new_hist->sheets, ctx->curr_sheet); highlight_glabel(ctx, sheet, cr, x, y, f); cro_canvas_draw(sheet->gfx_ctx, cr, x, y, f); } else { #if 0 /* @@@ fix geometry later */ cro_canvas_draw(ctx->delta_ab.gfx_ctx, cr, x, y, f); cro_canvas_draw(ctx->delta_a.gfx_ctx, cr, x, y, f); cro_canvas_draw(ctx->delta_b.gfx_ctx, cr, x, y, f); #endif hack(ctx, cr); } overlay_draw_all(ctx->sheet_overlays, cr, SHEET_OVERLAYS_X, SHEET_OVERLAYS_Y); overlay_draw_all_d(ctx->hist_overlays, cr, VCS_OVERLAYS_X, VCS_OVERLAYS_Y + (ctx->showing_history ? ctx->hist_y_offset : 0), 0, 1); overlay_draw_all_d(ctx->pop_underlays, cr, ctx->pop_x, ctx->pop_y, ctx->pop_dx, ctx->pop_dy); overlay_draw_all_d(ctx->pop_overlays, cr, ctx->pop_x + ctx->pop_dx * GLABEL_STACK_PADDING, ctx->pop_y + ctx->pop_dy * GLABEL_STACK_PADDING, ctx->pop_dx, ctx->pop_dy); return FALSE; } /* ----- Pre-rendering ----------------------------------------------------- */ void render_sheet(struct gui_sheet *sheet) { char *argv[] = { "gui", NULL }; gfx_init(&cro_canvas_ops, 1, argv); sch_render(sheet->sch); cro_canvas_end(gfx_ctx, &sheet->w, &sheet->h, &sheet->xmin, &sheet->ymin); sheet->gfx_ctx = gfx_ctx; sheet->rendered = 1; // gfx_end(); } void render_delta(struct gui_ctx *ctx) { #if 0 /* @@@ needs updating for curr/last vs. new/old */ struct sheet *sch_a, *sch_b, *sch_ab; const struct gui_sheet *a = ctx->curr_sheet; const struct gui_sheet *b = find_corresponding_sheet( ctx->last_hist->sheets, ctx->curr_hist->sheets, ctx->curr_sheet); sch_a = alloc_type(struct sheet); sch_b = alloc_type(struct sheet); sch_ab = alloc_type(struct sheet); delta(a->sch, b->sch, sch_a, sch_b, sch_ab); ctx->delta_a.sch = sch_a, ctx->delta_b.sch = sch_b, ctx->delta_ab.sch = sch_ab, render_sheet(&ctx->delta_a); render_sheet(&ctx->delta_b); render_sheet(&ctx->delta_ab); cro_color_override(ctx->delta_ab.gfx_ctx, COLOR_LIGHT_GREY); cro_color_override(ctx->delta_a.gfx_ctx, COLOR_RED); cro_color_override(ctx->delta_b.gfx_ctx, COLOR_GREEN2); // @@@ clean up when leaving sheet #endif struct gui_sheet *b = find_corresponding_sheet( ctx->old_hist->sheets, ctx->new_hist->sheets, ctx->curr_sheet); if (!b->rendered) { render_sheet(b); mark_aois(ctx, b); } } /* ----- Setup ------------------------------------------------------------- */ void render_setup(struct gui_ctx *ctx) { g_signal_connect(G_OBJECT(ctx->da), "draw", G_CALLBACK(on_draw_event), ctx); }