/* * graph.c - a graph widget * * Copyright © 2007-2008 Julien Danjou * Copyright © 2007-2008 Marco Candrian * * 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. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * */ #include #include "widget.h" #include "common/tokenize.h" typedef enum { Bottom_Style = 0, Top_Style, Line_Style } plot_style_t; /** The plot data structure. */ typedef struct { /** Grapht title of the plot sections */ char *title; /** Represents a full graph */ float max_value; /** Scale the graph */ bool scale; /* markers... */ /** Index of current (new) value */ int index; /** Index of the actual maximum value */ int max_index; /** Pointer to current maximum value itself */ float current_max; /** Draw style of according index */ plot_style_t draw_style; /** Keeps the calculated values (line-length); */ int *lines; /** Actual values */ float *values; /** Color of them */ color_t color_start; /** Color at middle of graph */ color_t pcolor_center; /** Color at end of graph */ color_t pcolor_end; /** Create a vertical color gradient */ bool vertical_gradient; } plot_t; static void plot_delete(plot_t *g) { p_delete(&g->title); p_delete(&g->lines); p_delete(&g->values); } DO_ARRAY(plot_t, plot, plot_delete) /** The private graph data structure */ typedef struct { /** Width of the widget */ int width; /** Height of graph (0.0-1.0; 1.0 = height of bar) */ float height; /** Height of the innerbox in pixels */ int box_height; /** Size of lines-array (also innerbox-length) */ int size; /** Background color */ color_t bg; /** Border color */ color_t border_color; /** Grow: Left or Right */ position_t grow; /** Preparation/tmp array for draw_graph(); */ int *draw_from; /** Preparation/tmp array for draw_graph(); */ int *draw_to; /** Graph list */ plot_array_t plots; } graph_data_t; /** Add a plot to a graph. * \param d The graph private data. * \param title The plot title. * \return A new plot. */ static plot_t * graph_plot_add(graph_data_t *d, const char *title) { plot_t plot; p_clear(&plot, 1); plot.title = a_strdup(title); plot.values = p_new(float, d->size); plot.lines = p_new(int, d->size); plot.max_value = 100.0; plot.vertical_gradient = true; xcolor_to_color(&globalconf.colors.fg, &plot.color_start); plot_array_append(&d->plots, plot); return &d->plots.tab[d->plots.len - 1]; } /** Get the plot, and create one if it does not exist. * \param d The graph private data. * \param title The plot title. * \return A maybe new plot. */ static plot_t * graph_plot_get(graph_data_t *d, const char *title) { plot_t *plot; /* check if this section is defined already */ for(int j = 0; j < d->plots.len; j++) { plot = &d->plots.tab[j]; if(!a_strcmp(title, plot->title)) return plot; } /* no plot found -> create one */ return graph_plot_add(d, title); } static area_t graph_geometry(widget_t *widget, screen_t *screen, int height, int width) { area_t geometry; graph_data_t *d = widget->data; geometry.x = geometry.y = 0; geometry.height = height; geometry.width = d->width; return geometry; } /** Draw a graph widget. * \param ctx The draw context. * \param w The widget node we are called from. * \param offset The offset to draw at. * \param used The already used width. * \param p A pointer to the object we're drawing onto. * \return The widget width. */ static void graph_draw(widget_t *widget, draw_context_t *ctx, area_t geometry, wibox_t *p) { int margin_top, y; graph_data_t *d = widget->data; area_t rectangle; vector_t color_gradient; if(!d->plots.len) return; /* box = the plot inside the rectangle */ if(!d->box_height) d->box_height = round(ctx->height * d->height) - 2; margin_top = round((ctx->height - (d->box_height + 2)) / 2) + geometry.y; /* draw background */ rectangle.x = geometry.x + 1; rectangle.y = margin_top + 1; rectangle.width = d->size; rectangle.height = d->box_height; draw_rectangle(ctx, rectangle, 1.0, true, &d->bg); /* for plot drawing */ rectangle.y = margin_top + d->box_height + 1; /* bottom left corner as starting point */ rectangle.width = d->size; /* rectangle.height is not used */ draw_graph_setup(ctx); /* setup some drawing options */ /* gradient begin either left or on the right of the rectangle */ if(d->grow == Right) color_gradient.x = rectangle.x + rectangle.width; else color_gradient.x = rectangle.x; for(int i = 0; i < d->plots.len; i++) { plot_t *plot = &d->plots.tab[i]; switch(plot->draw_style) { case Top_Style: color_gradient.y = rectangle.y - rectangle.height; if(plot->vertical_gradient) { color_gradient.x_offset = 0; color_gradient.y_offset = rectangle.height; } else { color_gradient.y_offset = 0; if(d->grow == Right) color_gradient.x_offset = - rectangle.width; else color_gradient.x_offset = rectangle.width; } for(y = 0; y < d->size; y++) { /* reverse values (because drawing from top) */ d->draw_from[y] = d->box_height; /* i.e. no smaller value -> from top of box */ d->draw_to[y] = d->box_height - plot->lines[y]; /* i.e. on full plot -> 0 = bottom */ } draw_graph(ctx, rectangle , d->draw_from, d->draw_to, plot->index, d->grow, color_gradient, &plot->color_start, &plot->pcolor_center, &plot->pcolor_end); break; case Bottom_Style: color_gradient.y = rectangle.y; if(plot->vertical_gradient) { color_gradient.x_offset = 0; color_gradient.y_offset = - rectangle.height; } else { color_gradient.y_offset = 0; if(d->grow == Right) color_gradient.x_offset = - rectangle.width; else color_gradient.x_offset = rectangle.width; } p_clear(d->draw_from, d->size); draw_graph(ctx, rectangle, d->draw_from, plot->lines, plot->index, d->grow, color_gradient, &plot->color_start, &plot->pcolor_center, &plot->pcolor_end); break; case Line_Style: color_gradient.y = rectangle.y; if(plot->vertical_gradient) { color_gradient.x_offset = 0; color_gradient.y_offset = -rectangle.height; } else { color_gradient.y_offset = 0; if(d->grow == Right) color_gradient.x_offset = - rectangle.width; else color_gradient.x_offset = rectangle.width; } draw_graph_line(ctx, rectangle, plot->lines, plot->index, d->grow, color_gradient, &plot->color_start, &plot->pcolor_center, &plot->pcolor_end); break; } } /* draw border (after line-drawing, what paints 0-values to the border) */ rectangle.x = geometry.x; rectangle.y = margin_top; rectangle.width = d->size + 2; rectangle.height = d->box_height + 2; draw_rectangle(ctx, rectangle, 1.0, false, &d->border_color); } /** Set various plot graph properties. * \param L The Lua VM state. * \return The number of elements pushed on stack. * \luastack * \lvalue A widget. * \lparam A plot name. * \lparam A table with various properties set. */ static int luaA_graph_plot_properties_set(lua_State *L) { widget_t *widget = luaL_checkudata(L, 1, "widget"); graph_data_t *d = widget->data; float max_value; const char *title, *buf; size_t len; plot_t *plot = NULL; color_init_cookie_t reqs[3]; int i, reqs_nbr = -1; title = luaL_checkstring(L, 2); luaA_checktable(L, 3); plot = graph_plot_get(d, title); if((buf = luaA_getopt_lstring(L, 3, "fg", NULL, &len))) reqs[++reqs_nbr] = color_init_unchecked(&plot->color_start, buf, len); if((buf = luaA_getopt_lstring(L, 3, "fg_center", NULL, &len))) reqs[++reqs_nbr] = color_init_unchecked(&plot->pcolor_center, buf, len); if((buf = luaA_getopt_lstring(L, 3, "fg_end", NULL, &len))) reqs[++reqs_nbr] = color_init_unchecked(&plot->pcolor_end, buf, len); plot->vertical_gradient = luaA_getopt_boolean(L, 3, "vertical_gradient", plot->vertical_gradient); plot->scale = luaA_getopt_boolean(L, 3, "scale", plot->scale); max_value = luaA_getopt_number(L, 3, "max_value", plot->max_value); if(max_value != plot->max_value) plot->max_value = plot->current_max = max_value; if((buf = luaA_getopt_lstring(L, 3, "style", NULL, &len))) switch (a_tokenize(buf, len)) { case A_TK_BOTTOM: plot->draw_style = Bottom_Style; break; case A_TK_LINE: plot->draw_style = Line_Style; break; case A_TK_TOP: plot->draw_style = Top_Style; break; default: break; } for(i = 0; i <= reqs_nbr; i++) color_init_reply(reqs[i]); widget_invalidate_bywidget(widget); return 0; } /** Add data to a plot. * \param l The Lua VM state. * \return The number of elements pushed on stack. * \luastack * \lvalue A widget. * \lparam A plot name. * \lparam A data value. */ static int luaA_graph_plot_data_add(lua_State *L) { widget_t *widget = luaL_checkudata(L, 1, "widget"); graph_data_t *d = widget->data; plot_t *plot = NULL; const char *title = luaL_checkstring(L, 2); float value; int i; if(!d->size) return 0; plot = graph_plot_get(d, title); /* assign incoming value */ value = MAX(luaL_checknumber(L, 3), 0); if(++plot->index >= d->size) /* cycle inside the array */ plot->index = 0; if(plot->scale) /* scale option is true */ { plot->values[plot->index] = value; if(value > plot->current_max) /* a new maximum value found */ { plot->max_index = plot->index; plot->current_max = value; /* recalculate */ for (i = 0; i < d->size; i++) plot->lines[i] = round(plot->values[i] * d->box_height / plot->current_max); } /* old max_index reached + current_max > normal, re-check/generate */ else if(plot->max_index == plot->index && plot->current_max > plot->max_value) { /* find the new max */ for(i = 0; i < d->size; i++) if(plot->values[i] > plot->values[plot->max_index]) plot->max_index = i; plot->current_max = MAX(plot->values[plot->max_index], plot->max_value); /* recalculate */ for(i = 0; i < d->size; i++) plot->lines[i] = round(plot->values[i] * d->box_height / plot->current_max); } else plot->lines[plot->index] = round(value * d->box_height / plot->current_max); } else /* scale option is false - limit to d->box_height */ { if(value < plot->max_value) plot->lines[plot->index] = round(value * d->box_height / plot->max_value); else plot->lines[plot->index] = d->box_height; } widget_invalidate_bywidget(widget); return 0; } /** Graph widget. * \param L The Lua VM state. * \param token The key token. * \return The number of elements pushed on stack. * \luastack * \lfield plot_properties_set A function to set plot properties. * \lfield plot_data_add A function to add data to a plot. * \lfield height Graph height. * \lfield widget Graph width. * \lfield bg Background color. * \lfield grow Direction to grow: left or right. */ static int luaA_graph_index(lua_State *L, awesome_token_t token) { widget_t *widget = luaL_checkudata(L, 1, "widget"); graph_data_t *d = widget->data; switch(token) { case A_TK_PLOT_PROPERTIES_SET: lua_pushcfunction(L, luaA_graph_plot_properties_set); break; case A_TK_PLOT_DATA_ADD: lua_pushcfunction(L, luaA_graph_plot_data_add); break; case A_TK_HEIGHT: lua_pushnumber(L, d->height); break; case A_TK_WIDTH: lua_pushnumber(L, d->width); break; case A_TK_BORDER_COLOR: luaA_pushcolor(L, &d->border_color); break; case A_TK_BG: luaA_pushcolor(L, &d->bg); break; case A_TK_GROW: switch(d->grow) { case Left: lua_pushliteral(L, "left"); break; case Right: lua_pushliteral(L, "right"); break; default: return 0; } break; default: return 0; } return 1; } /** Newindex function for graph widget. * \param L The Lua VM state. * \param token The key token. * \return The number of elements pushed on stack. */ static int luaA_graph_newindex(lua_State *L, awesome_token_t token) { size_t len; widget_t *widget = luaL_checkudata(L, 1, "widget"); graph_data_t *d = widget->data; const char *buf; int width; position_t pos; color_t color; switch(token) { case A_TK_HEIGHT: d->height = luaL_checknumber(L, 3); break; case A_TK_WIDTH: width = luaL_checknumber(L, 3); if(width >= 2 && width != d->width) { d->width = width; d->size = d->width - 2; p_realloc(&d->draw_from, d->size); p_realloc(&d->draw_to, d->size); for(int i = 0; i < d->plots.len; i++) { plot_t *plot = &d->plots.tab[i]; p_realloc(&plot->values, d->size); p_realloc(&plot->lines, d->size); p_clear(plot->values, d->size); p_clear(plot->lines, d->size); plot->index = 0; plot->current_max = 0; plot->max_index = 0; } } else return 0; break; case A_TK_BG: if((buf = luaL_checklstring(L, 3, &len))) { if(color_init_reply(color_init_unchecked(&color, buf, len))) d->bg = color; else return 0; } break; case A_TK_BORDER_COLOR: if((buf = luaL_checklstring(L, 3, &len))) { if(color_init_reply(color_init_unchecked(&color, buf, len))) d->border_color = color; else return 0; } break; case A_TK_GROW: buf = luaL_checklstring(L, 3, &len); switch((pos = position_fromstr(buf, len))) { case Left: case Right: d->grow = pos; break; default: return 0; } break; default: return 0; } widget_invalidate_bywidget(widget); return 0; } /** Destroy definitively a graph widget. * \param widget Who slay. */ static void graph_destructor(widget_t *widget) { graph_data_t *d = widget->data; plot_array_wipe(&d->plots); p_delete(&d->draw_from); p_delete(&d->draw_to); p_delete(&d); } /** Create a brand new graph. * \param w The widget to initialize. * \return The same widget. */ widget_t * widget_graph(widget_t *w) { w->draw = graph_draw; w->index = luaA_graph_index; w->newindex = luaA_graph_newindex; w->destructor = graph_destructor; w->geometry = graph_geometry; graph_data_t *d = w->data = p_new(graph_data_t, 1); d->width = 80; d->height = 0.80; d->size = d->width - 2; d->grow = Left; d->draw_from = p_new(int, d->size); d->draw_to = p_new(int, d->size); xcolor_to_color(&globalconf.colors.bg, &d->bg); xcolor_to_color(&globalconf.colors.fg, &d->border_color); return w; } /* This is used for building documentation. */ static const struct luaL_reg awesome_graph_meta[] __attribute__ ((unused)) = { { "plot_properties_set", luaA_graph_plot_properties_set }, { "plot_data_add", luaA_graph_plot_data_add }, }; 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