/* * Copyright 2012 - 2013 Michael Drake * * This file is part of NetSurf, http://www.netsurf-browser.org/ * * NetSurf 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; version 2 of the License. * * NetSurf 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, see . */ /** \file * Treeview handling (implementation). */ #include "css/utils.h" #include "desktop/gui.h" #include "desktop/knockout.h" #include "desktop/plotters.h" #include "desktop/treeview.h" #include "render/font.h" #include "utils/log.h" #define FIELD_FOLDER 0 #define FIELD_FIRST_ENTRY 1 /* TODO: get rid of REDRAW_MAX -- need to be able to know window size */ #define REDRAW_MAX 8000 struct treeview_globals { int line_height; int furniture_width; int step_width; int window_padding; int icon_step; } tree_g; enum treeview_node_type { TREE_NODE_ROOT, TREE_NODE_FOLDER, TREE_NODE_ENTRY }; struct treeview_text { const char *data; uint32_t len; int width; }; struct treeview_field { enum treeview_field_flags flags; lwc_string *field; struct treeview_text value; }; enum treeview_node_flags { TREE_NODE_NONE = 0, /**< No node flags set */ TREE_NODE_EXPANDED = (1 << 0), /**< Whether node is expanded */ TREE_NODE_SELECTED = (1 << 1) /**< Whether node is selected */ }; struct treeview_node { enum treeview_node_flags flags; enum treeview_node_type type; int height; int inset; struct treeview_node *parent; struct treeview_node *sibling_prev; struct treeview_node *sibling_next; struct treeview_node *children; void *client_data; struct treeview_field text; }; struct treeview_node_entry { struct treeview_node base; struct treeview_field fields[]; }; struct treeview { uint32_t view_height; uint32_t view_width; struct treeview_node *root; struct treeview_field *fields; int n_fields; /* fields[n_fields] is folder, lower are entry fields */ int field_width; const struct treeview_callback_table *callbacks; const struct core_window_callback_table *cw_t; /**< Core window callback table */ struct core_window *cw_h; /**< Core window handle */ }; struct treeview_node_style { plot_style_t bg; /**< Background */ plot_font_style_t text; /**< Text */ plot_font_style_t itext; /**< Entry field text */ plot_style_t sbg; /**< Selected background */ plot_font_style_t stext; /**< Selected text */ plot_font_style_t sitext; /**< Selected entry field text */ }; struct treeview_node_style plot_style_odd; struct treeview_node_style plot_style_even; struct treeview_resource { const char *url; struct hlcache_handle *c; int height; bool ready; }; enum treeview_resource_id { TREE_RES_CONTENT = 0, TREE_RES_FOLDER, TREE_RES_SEARCH, TREE_RES_LAST }; static struct treeview_resource treeview_res[TREE_RES_LAST] = { { "resource:icons/content.png", NULL, 0, false }, { "resource:icons/directory.png", NULL, 0, false }, { "resource:icons/search.png", NULL, 0, false } }; enum treeview_furniture_id { TREE_FURN_EXPAND = 0, TREE_FURN_CONTRACT, TREE_FURN_LAST }; static struct treeview_text treeview_furn[TREE_FURN_LAST] = { { "\xe2\x96\xb8", 3, 0 }, { "\xe2\x96\xbe", 3, 0 } }; static nserror treeview_create_node_root(struct treeview_node **root) { struct treeview_node *n; n = malloc(sizeof(struct treeview_node)); if (n == NULL) { return NSERROR_NOMEM; } n->flags = TREE_NODE_EXPANDED; n->type = TREE_NODE_ROOT; n->height = 0; n->inset = tree_g.window_padding - tree_g.step_width; n->text.flags = TREE_FLAG_NONE; n->text.field = NULL; n->text.value.data = NULL; n->text.value.len = 0; n->text.value.width = 0; n->parent = NULL; n->sibling_next = NULL; n->sibling_prev = NULL; n->children = NULL; n->client_data = NULL; *root = n; return NSERROR_OK; } /** * Insert a treeview node into a treeview * * \param a parentless node to insert * \param b tree node to insert a as a relation of * \param rel a's relationship to b */ static inline void treeview_insert_node(struct treeview_node *a, struct treeview_node *b, enum treeview_relationship rel) { assert(a != NULL); assert(a->parent == NULL); assert(b != NULL); switch (rel) { case TREE_REL_FIRST_CHILD: assert(b->type != TREE_NODE_ENTRY); a->parent = b; a->sibling_next = b->children; if (a->sibling_next) a->sibling_next->sibling_prev = a; b->children = a; break; case TREE_REL_NEXT_SIBLING: assert(b->type != TREE_NODE_ROOT); a->sibling_prev = b; a->sibling_next = b->sibling_next; a->parent = b->parent; b->sibling_next = a; if (a->sibling_next) a->sibling_next->sibling_prev = a; break; default: assert(0); break; } assert(a->parent != NULL); a->inset = a->parent->inset + tree_g.step_width; if (a->parent->flags & TREE_NODE_EXPANDED) { /* Parent is expanded, so inserted node will be visible and * affect layout */ b = a; do { b->parent->height += b->height; b = b->parent; } while (b->parent != NULL); if (a->text.value.width == 0) { nsfont.font_width(&plot_style_odd.text, a->text.value.data, a->text.value.len, &(a->text.value.width)); } } } nserror treeview_create_node_folder(struct treeview *tree, struct treeview_node **folder, struct treeview_node *relation, enum treeview_relationship rel, const struct treeview_field_data *field, void *data) { struct treeview_node *n; assert(data != NULL); assert(tree != NULL); assert(tree->root != NULL); if (relation == NULL) { relation = tree->root; rel = TREE_REL_FIRST_CHILD; } n = malloc(sizeof(struct treeview_node)); if (n == NULL) { return NSERROR_NOMEM; } n->flags = TREE_NODE_NONE; n->type = TREE_NODE_FOLDER; n->height = tree_g.line_height; n->text.value.data = field->value; n->text.value.len = field->value_len; n->text.value.width = 0; n->parent = NULL; n->sibling_next = NULL; n->sibling_prev = NULL; n->children = NULL; n->client_data = data; treeview_insert_node(n, relation, rel); *folder = n; return NSERROR_OK; } nserror treeview_update_node_entry(struct treeview *tree, struct treeview_node *entry, const struct treeview_field_data fields[], void *data) { bool match; struct treeview_node_entry *e = (struct treeview_node_entry *)entry; int i; assert(data != NULL); assert(tree != NULL); assert(entry != NULL); assert(data == entry->client_data); assert(entry->parent != NULL); assert(fields != NULL); assert(fields[0].field != NULL); assert(lwc_string_isequal(tree->fields[0].field, fields[0].field, &match) == lwc_error_ok && match == true); entry->text.value.data = fields[0].value; entry->text.value.len = fields[0].value_len; entry->text.value.width = 0; if (entry->parent->flags & TREE_NODE_EXPANDED) { /* Text will be seen, get its width */ nsfont.font_width(&plot_style_odd.text, entry->text.value.data, entry->text.value.len, &(entry->text.value.width)); } else { /* Just invalidate the width, since it's not needed now */ entry->text.value.width = 0; } for (i = 1; i < tree->n_fields; i++) { assert(fields[i].field != NULL); assert(lwc_string_isequal(tree->fields[i].field, fields[i].field, &match) == lwc_error_ok && match == true); e->fields[i - 1].value.data = fields[i].value; e->fields[i - 1].value.len = fields[i].value_len; if (entry->flags & TREE_NODE_EXPANDED) { /* Text will be seen, get its width */ nsfont.font_width(&plot_style_odd.text, e->fields[i - 1].value.data, e->fields[i - 1].value.len, &(e->fields[i - 1].value.width)); } else { /* Invalidate the width, since it's not needed yet */ e->fields[i - 1].value.width = 0; } } return NSERROR_OK; } nserror treeview_create_node_entry(struct treeview *tree, struct treeview_node **entry, struct treeview_node *relation, enum treeview_relationship rel, const struct treeview_field_data fields[], void *data) { bool match; struct treeview_node_entry *e; struct treeview_node *n; int i; assert(data != NULL); assert(tree != NULL); assert(tree->root != NULL); if (relation == NULL) { relation = tree->root; rel = TREE_REL_FIRST_CHILD; } e = malloc(sizeof(struct treeview_node_entry) + (tree->n_fields - 1) * sizeof(struct treeview_field)); if (e == NULL) { return NSERROR_NOMEM; } n = (struct treeview_node *) e; n->flags = TREE_NODE_NONE; n->type = TREE_NODE_ENTRY; n->height = tree_g.line_height; assert(fields != NULL); assert(fields[0].field != NULL); assert(lwc_string_isequal(tree->fields[0].field, fields[0].field, &match) == lwc_error_ok && match == true); n->text.value.data = fields[0].value; n->text.value.len = fields[0].value_len; n->text.value.width = 0; n->parent = NULL; n->sibling_next = NULL; n->sibling_prev = NULL; n->children = NULL; n->client_data = data; for (i = 1; i < tree->n_fields; i++) { assert(fields[i].field != NULL); assert(lwc_string_isequal(tree->fields[i].field, fields[i].field, &match) == lwc_error_ok && match == true); e->fields[i - 1].value.data = fields[i].value; e->fields[i - 1].value.len = fields[i].value_len; e->fields[i - 1].value.width = 0; } treeview_insert_node(n, relation, rel); *entry = n; return NSERROR_OK; } nserror treeview_delete_node(struct treeview *tree, struct treeview_node *n) { struct treeview_node_msg msg; msg.msg = TREE_MSG_NODE_DELETE; msg.data.node_delete.node = n; /* Destroy children first */ while (n->children != NULL) { treeview_delete_node(tree, n->children); } /* Unlink node from tree */ if (n->parent != NULL && n->parent->children == n) { /* Node is a first child */ n->parent->children = n->sibling_next; } else if (n->sibling_prev != NULL) { /* Node is not first child */ n->sibling_prev->sibling_next = n->sibling_next; } if (n->sibling_next != NULL) { /* Always need to do this */ n->sibling_next->sibling_prev = n->sibling_prev; } /* Handle any special treatment */ switch (n->type) { case TREE_NODE_ENTRY: tree->callbacks->entry(msg, n->client_data); break; case TREE_NODE_FOLDER: tree->callbacks->folder(msg, n->client_data); break; case TREE_NODE_ROOT: break; default: return NSERROR_BAD_PARAMETER; } /* Free the node */ free(n); return NSERROR_OK; } nserror treeview_create(struct treeview **tree, const struct treeview_callback_table *callbacks, int n_fields, struct treeview_field_desc fields[], const struct core_window_callback_table *cw_t, struct core_window *cw) { nserror error; int i; assert(cw_t != NULL); assert(cw != NULL); assert(callbacks != NULL); assert(fields != NULL); assert(fields[0].flags & TREE_FLAG_DEFAULT); assert(fields[n_fields - 1].flags & TREE_FLAG_DEFAULT); assert(n_fields >= 2); *tree = malloc(sizeof(struct treeview)); if (*tree == NULL) { return NSERROR_NOMEM; } (*tree)->fields = malloc(sizeof(struct treeview_field) * n_fields); if ((*tree)->fields == NULL) { free(tree); return NSERROR_NOMEM; } error = treeview_create_node_root(&((*tree)->root)); if (error != NSERROR_OK) { free((*tree)->fields); free(*tree); return error; } (*tree)->field_width = 0; for (i = 0; i < n_fields; i++) { struct treeview_field *f = &((*tree)->fields[i]); f->flags = fields[i].flags; f->field = lwc_string_ref(fields[i].field); f->value.data = lwc_string_data(fields[i].field); f->value.len = lwc_string_length(fields[i].field); nsfont.font_width(&plot_style_odd.text, f->value.data, f->value.len, &(f->value.width)); if (f->flags & TREE_FLAG_SHOW_NAME) if ((*tree)->field_width < f->value.width) (*tree)->field_width = f->value.width; } (*tree)->field_width += tree_g.step_width; (*tree)->callbacks = callbacks; (*tree)->n_fields = n_fields - 1; (*tree)->cw_t = cw_t; (*tree)->cw_h = cw; return NSERROR_OK; } nserror treeview_destroy(struct treeview *tree) { int f; assert(tree != NULL); /* Destroy nodes */ treeview_delete_node(tree, tree->root); /* Destroy feilds */ for (f = 0; f <= tree->n_fields; f++) { lwc_string_unref(tree->fields[f].field); } free(tree->fields); /* Free treeview */ free(tree); return NSERROR_OK; } /* Walk a treeview subtree, calling a callback at each node (depth first) * * \param root Root to walk tree from (doesn't get a callback call) * \param full Iff true, visit children of collapsed nodes * \param callback Function to call on each node * \param ctx Context to pass to callback * \return true iff callback caused premature abort */ static bool treeview_walk_internal(struct treeview_node *root, bool full, bool (*callback)(struct treeview_node *node, void *ctx), void *ctx) { struct treeview_node *node, *next; node = root; while (node != NULL) { next = (full || (node->flags & TREE_NODE_EXPANDED)) ? node->children : NULL; if (next != NULL) { /* Down to children */ node = next; } else { /* No children. As long as we're not at the root, * go to next sibling if present, or nearest ancestor * with a next sibling. */ while (node != root && node->sibling_next == NULL) { node = node->parent; } if (node == root) break; node = node->sibling_next; } assert(node != NULL); assert(node != root); if (callback(node, ctx)) { /* callback caused early termination */ return true; } } return false; } nserror treeview_node_expand(struct treeview *tree, struct treeview_node *node) { struct treeview_node *child; struct treeview_node_entry *e; int additional_height = 0; int i; assert(tree != NULL); assert(node != NULL); if (node->flags & TREE_NODE_EXPANDED) { /* What madness is this? */ LOG(("Tried to expand an expanded node.")); return NSERROR_OK; } switch (node->type) { case TREE_NODE_FOLDER: child = node->children; if (child == NULL) { /* Can't expand an empty node */ return NSERROR_OK; } do { assert((child->flags & TREE_NODE_EXPANDED) == false); if (child->text.value.width == 0) { nsfont.font_width(&plot_style_odd.text, child->text.value.data, child->text.value.len, &(child->text.value.width)); } additional_height += child->height; child = child->sibling_next; } while (child != NULL); break; case TREE_NODE_ENTRY: assert(node->children == NULL); e = (struct treeview_node_entry *)node; for (i = 0; i < tree->n_fields - 1; i++) { if (e->fields[i].value.width == 0) { nsfont.font_width(&plot_style_odd.text, e->fields[i].value.data, e->fields[i].value.len, &(e->fields[i].value.width)); } /* Add height for field */ additional_height += tree_g.line_height; } break; case TREE_NODE_ROOT: assert(node->type != TREE_NODE_ROOT); break; } /* Update the node */ node->flags |= TREE_NODE_EXPANDED; /* And parent's heights */ do { node->height += additional_height; node = node->parent; } while (node->parent != NULL); node->height += additional_height; return NSERROR_OK; } static bool treeview_node_contract_cb(struct treeview_node *node, void *ctx) { int height_reduction; assert(node != NULL); assert(node->type != TREE_NODE_ROOT); if ((node->flags & TREE_NODE_EXPANDED) == false) { /* Nothing to do. */ return false; } node->flags ^= TREE_NODE_EXPANDED; height_reduction = node->height - tree_g.line_height; assert(height_reduction >= 0); do { node->height -= height_reduction; node = node->parent; } while (node->parent != NULL && node->parent->flags & TREE_NODE_EXPANDED); return false; /* Don't want to abort tree walk */ } nserror treeview_node_contract(struct treeview *tree, struct treeview_node *node) { assert(node != NULL); if ((node->flags & TREE_NODE_EXPANDED) == false) { /* What madness is this? */ LOG(("Tried to contract a contracted node.")); return NSERROR_OK; } /* Contract children. */ treeview_walk_internal(node, false, treeview_node_contract_cb, NULL); /* Contract node */ treeview_node_contract_cb(node, NULL); return NSERROR_OK; } /** * Redraws a treeview. * * \param tree the tree to draw * \param x X coordinate to draw the tree at (wrt plot origin) * \param y Y coordinate to draw the tree at (wrt plot origin) * \param clip_x clipping rectangle (wrt tree origin) * \param ctx current redraw context */ void treeview_redraw(struct treeview *tree, int x, int y, struct rect *clip, const struct redraw_context *ctx) { struct redraw_context new_ctx = *ctx; struct treeview_node *node, *root, *next; struct treeview_node_entry *entry; struct treeview_node_style *style = &plot_style_odd; struct content_redraw_data data; struct rect r; uint32_t count = 0; int render_y = y; int inset; int x0, y0, y1; int baseline = (tree_g.line_height * 3 + 2) / 4; enum treeview_resource_id res = TREE_RES_CONTENT; plot_style_t *bg_style; plot_font_style_t *text_style; plot_font_style_t *infotext_style; int height; assert(tree != NULL); assert(tree->root != NULL); assert(tree->root->flags & TREE_NODE_EXPANDED); /* Start knockout rendering if it's available for this plotter */ if (ctx->plot->option_knockout) knockout_plot_start(ctx, &new_ctx); /* Set up clip rectangle */ r.x0 = clip->x0 + x; r.y0 = clip->y0 + y; r.x1 = clip->x1 + x; r.y1 = clip->y1 + y; new_ctx.plot->clip(&r); /* Draw the tree */ node = root = tree->root; /* Setup common content redraw data */ data.width = 17; data.height = 17; data.scale = 1; data.repeat_x = false; data.repeat_y = false; while (node != NULL) { int i; next = (node->flags & TREE_NODE_EXPANDED) ? node->children : NULL; if (next != NULL) { /* down to children */ node = next; } else { /* No children. As long as we're not at the root, * go to next sibling if present, or nearest ancestor * with a next sibling. */ while (node != root && node->sibling_next == NULL) { node = node->parent; } if (node == root) break; node = node->sibling_next; } assert(node != NULL); assert(node != root); assert(node->type == TREE_NODE_FOLDER || node->type == TREE_NODE_ENTRY); count++; inset = node->inset; height = (node->type == TREE_NODE_ENTRY) ? node->height : tree_g.line_height; if ((render_y + height) < r.y0) { /* This node's line is above clip region */ render_y += height; continue; } style = (count & 0x1) ? &plot_style_odd : &plot_style_even; if (node->flags & TREE_NODE_SELECTED) { bg_style = &style->sbg; text_style = &style->stext; infotext_style = &style->sitext; } else { bg_style = &style->bg; text_style = &style->text; infotext_style = &style->itext; } /* Render background */ y0 = render_y; y1 = render_y + height; new_ctx.plot->rectangle(r.x0, y0, r.x1, y1, bg_style); /* Render toggle */ if (node->flags & TREE_NODE_EXPANDED) { new_ctx.plot->text(inset, render_y + baseline, treeview_furn[TREE_FURN_CONTRACT].data, treeview_furn[TREE_FURN_CONTRACT].len, text_style); } else { new_ctx.plot->text(inset, render_y + baseline, treeview_furn[TREE_FURN_EXPAND].data, treeview_furn[TREE_FURN_EXPAND].len, text_style); } /* Render icon */ if (node->type == TREE_NODE_ENTRY) res = TREE_RES_CONTENT; else if (node->type == TREE_NODE_FOLDER) res = TREE_RES_FOLDER; if (treeview_res[res].ready) { /* Icon resource is available */ data.x = inset + tree_g.step_width; data.y = render_y + ((tree_g.line_height - treeview_res[res].height + 1) / 2); data.background_colour = bg_style->fill_colour; content_redraw(treeview_res[res].c, &data, &r, &new_ctx); } /* Render text */ x0 = inset + tree_g.step_width + tree_g.icon_step; new_ctx.plot->text(x0, render_y + baseline, node->text.value.data, node->text.value.len, text_style); /* Rendered the node */ render_y += tree_g.line_height; if (render_y > r.y1) { /* Passed the bottom of what's in the clip region. * Done. */ break; } if (node->type != TREE_NODE_ENTRY || !(node->flags & TREE_NODE_EXPANDED)) /* Done everything for this node */ continue; /* Render expanded entry fields */ entry = (struct treeview_node_entry *)node; for (i = 0; i < tree->n_fields - 1; i++) { struct treeview_field *ef = &(tree->fields[i + 1]); if (ef->flags & TREE_FLAG_SHOW_NAME) { int max_width = tree->field_width; new_ctx.plot->text(x0 + max_width - ef->value.width - tree_g.step_width, render_y + baseline, ef->value.data, ef->value.len, infotext_style); new_ctx.plot->text(x0 + max_width, render_y + baseline, entry->fields[i].value.data, entry->fields[i].value.len, infotext_style); } else { new_ctx.plot->text(x0, render_y + baseline, entry->fields[i].value.data, entry->fields[i].value.len, infotext_style); } /* Rendered the expanded entry field */ render_y += tree_g.line_height; } /* Finshed rendering expanded entry */ if (render_y > r.y1) { /* Passed the bottom of what's in the clip region. * Done. */ break; } } if (render_y < r.y1) { /* Fill the blank area at the bottom */ y0 = render_y; new_ctx.plot->rectangle(r.x0, y0, r.x1, r.y1, &plot_style_even.bg); } /* Rendering complete */ if (ctx->plot->option_knockout) knockout_plot_end(); } struct treeview_selection_walk_data { enum { TREEVIEW_WALK_HAS_SELECTION, TREEVIEW_WALK_CLEAR_SELECTION, TREEVIEW_WALK_SELECT_ALL } purpose; union { bool has_selection; struct { bool required; struct rect *rect; } redraw; } data; int current_y; }; static bool treeview_node_selection_walk_cb(struct treeview_node *node, void *ctx) { struct treeview_selection_walk_data *sw = ctx; int height; bool changed = false; height = (node->type == TREE_NODE_ENTRY) ? node->height : tree_g.line_height; sw->current_y += height; switch (sw->purpose) { case TREEVIEW_WALK_HAS_SELECTION: if (node->flags & TREE_NODE_SELECTED) { sw->data.has_selection = true; return true; /* Can abort tree walk */ } break; case TREEVIEW_WALK_CLEAR_SELECTION: if (node->flags & TREE_NODE_SELECTED) { node->flags ^= TREE_NODE_SELECTED; changed = true; } break; case TREEVIEW_WALK_SELECT_ALL: if (!(node->flags & TREE_NODE_SELECTED)) { node->flags ^= TREE_NODE_SELECTED; changed = true; } break; } if (changed) { if (sw->data.redraw.required == false) { sw->data.redraw.required = true; sw->data.redraw.rect->y0 = sw->current_y - height; } if (sw->current_y > sw->data.redraw.rect->y1) { sw->data.redraw.rect->y1 = sw->current_y; } } return false; /* Don't stop walk */ } bool treeview_has_selection(struct treeview *tree) { struct treeview_selection_walk_data sw; sw.purpose = TREEVIEW_WALK_HAS_SELECTION; sw.data.has_selection = false; treeview_walk_internal(tree->root, false, treeview_node_selection_walk_cb, &sw); return sw.data.has_selection; } bool treeview_clear_selection(struct treeview *tree, struct rect *rect) { struct treeview_selection_walk_data sw; rect->x0 = 0; rect->y0 = 0; rect->x1 = REDRAW_MAX; rect->y1 = 0; sw.purpose = TREEVIEW_WALK_CLEAR_SELECTION; sw.data.redraw.required = false; sw.data.redraw.rect = rect; sw.current_y = 0; treeview_walk_internal(tree->root, false, treeview_node_selection_walk_cb, &sw); return sw.data.redraw.required; } bool treeview_select_all(struct treeview *tree, struct rect *rect) { struct treeview_selection_walk_data sw; rect->x0 = 0; rect->y0 = 0; rect->x1 = REDRAW_MAX; rect->y1 = 0; sw.purpose = TREEVIEW_WALK_SELECT_ALL; sw.data.redraw.required = false; sw.data.redraw.rect = rect; sw.current_y = 0; treeview_walk_internal(tree->root, false, treeview_node_selection_walk_cb, &sw); return sw.data.redraw.required; } struct treeview_mouse_action { struct treeview *tree; browser_mouse_state mouse; int x; int y; int current_y; }; static bool treeview_node_mouse_action_cb(struct treeview_node *node, void *ctx) { struct treeview_mouse_action *ma = ctx; struct rect r; bool redraw = false; int height; enum { TV_NODE_ACTION_NONE = 0, TV_NODE_ACTION_SELECTION = (1 << 0) } action = TV_NODE_ACTION_NONE; nserror err; r.x0 = 0; r.x1 = REDRAW_MAX; height = (node->type == TREE_NODE_ENTRY) ? node->height : tree_g.line_height; /* Skip line if we've not reached mouse y */ if (ma->y > ma->current_y + height) { ma->current_y += height; return false; /* Don't want to abort tree walk */ } if ((ma->mouse & BROWSER_MOUSE_DOUBLE_CLICK) && (ma->mouse & BROWSER_MOUSE_CLICK_1)) { /* Clear any existing selection */ redraw |= treeview_clear_selection(ma->tree, &r); /* TODO: launch callback for entry */ /* TODO: for now expand/collapse both directories and entries */ if (node->flags & TREE_NODE_EXPANDED) { err = treeview_node_contract(ma->tree, node); } else { err = treeview_node_expand(ma->tree, node); } redraw = true; r.y0 = ma->current_y; r.y1 = REDRAW_MAX; } else if (ma->mouse & BROWSER_MOUSE_PRESS_1 && !(node->flags & TREE_NODE_SELECTED)) { /* Clear any existing selection */ redraw |= treeview_clear_selection(ma->tree, &r); /* Select node */ action |= TV_NODE_ACTION_SELECTION; } else if (ma->mouse & BROWSER_MOUSE_PRESS_2) { /* Toggle selection of node */ action |= TV_NODE_ACTION_SELECTION; } if (action & TV_NODE_ACTION_SELECTION) { /* Handle change in selection */ node->flags ^= TREE_NODE_SELECTED; /* Redraw */ if (!redraw) { r.y0 = ma->current_y; r.y1 = ma->current_y + height; redraw = true; } else { if (r.y0 > ma->current_y) r.y0 = ma->current_y; if (r.y1 < ma->current_y + height) r.y1 = ma->current_y + height; } } if (redraw) { ma->tree->cw_t->redraw_request(ma->tree->cw_h, r); } return true; /* Reached line with click; stop walking tree */ } void treeview_mouse_action(struct treeview *tree, browser_mouse_state mouse, int x, int y) { struct treeview_mouse_action ma; ma.tree = tree; ma.mouse = mouse; ma.x = x; ma.y = y; ma.current_y = 0; treeview_walk_internal(tree->root, false, treeview_node_mouse_action_cb, &ma); } /* Mix two colours according to the proportion given by p. * Where 0 <= p <= 255 * p=0 gives result=c0 * p=255 gives result=c1 */ #define mix_colour(c0, c1, p) \ ((((((c1 & 0xff00ff) * (255 - p)) + \ ((c0 & 0xff00ff) * ( p)) ) >> 8) & 0xff00ff) | \ (((((c1 & 0x00ff00) * (255 - p)) + \ ((c0 & 0x00ff00) * ( p)) ) >> 8) & 0x00ff00)) static void treeview_init_plot_styles(int font_pt_size) { /* Background colour */ plot_style_even.bg.stroke_type = PLOT_OP_TYPE_NONE; plot_style_even.bg.stroke_width = 0; plot_style_even.bg.stroke_colour = 0; plot_style_even.bg.fill_type = PLOT_OP_TYPE_SOLID; plot_style_even.bg.fill_colour = gui_system_colour_char("Window"); /* Text colour */ plot_style_even.text.family = PLOT_FONT_FAMILY_SANS_SERIF; plot_style_even.text.size = font_pt_size * FONT_SIZE_SCALE; plot_style_even.text.weight = 400; plot_style_even.text.flags = FONTF_NONE; plot_style_even.text.foreground = gui_system_colour_char("WindowText"); plot_style_even.text.background = gui_system_colour_char("Window"); /* Entry field text colour */ plot_style_even.itext = plot_style_even.text; plot_style_even.itext.foreground = mix_colour( plot_style_even.text.foreground, plot_style_even.text.background, 255 * 10 / 16); /* Selected background colour */ plot_style_even.sbg = plot_style_even.bg; plot_style_even.sbg.fill_colour = gui_system_colour_char("Highlight"); /* Selected text colour */ plot_style_even.stext = plot_style_even.text; plot_style_even.stext.foreground = gui_system_colour_char("HighlightText"); plot_style_even.stext.background = gui_system_colour_char("Highlight"); /* Selected entry field text colour */ plot_style_even.sitext = plot_style_even.stext; plot_style_even.sitext.foreground = mix_colour( plot_style_even.stext.foreground, plot_style_even.stext.background, 255 * 25 / 32); /* Odd numbered node styles */ plot_style_odd.bg = plot_style_even.bg; plot_style_odd.bg.fill_colour = mix_colour( plot_style_even.bg.fill_colour, plot_style_even.text.foreground, 255 * 15 / 16); plot_style_odd.text = plot_style_even.text; plot_style_odd.text.background = plot_style_odd.bg.fill_colour; plot_style_odd.itext = plot_style_odd.text; plot_style_odd.itext.foreground = mix_colour( plot_style_odd.text.foreground, plot_style_odd.text.background, 255 * 10 / 16); plot_style_odd.sbg = plot_style_even.sbg; plot_style_odd.stext = plot_style_even.stext; plot_style_odd.sitext = plot_style_even.sitext; } /** * Callback for hlcache. */ static nserror treeview_res_cb(hlcache_handle *handle, const hlcache_event *event, void *pw) { struct treeview_resource *r = pw; switch (event->type) { case CONTENT_MSG_READY: case CONTENT_MSG_DONE: r->ready = true; r->height = content_get_height(handle); break; default: break; } return NSERROR_OK; } static void treeview_init_resources(void) { int i; for (i = 0; i < TREE_RES_LAST; i++) { nsurl *url; if (nsurl_create(treeview_res[i].url, &url) == NSERROR_OK) { hlcache_handle_retrieve(url, 0, NULL, NULL, treeview_res_cb, &(treeview_res[i]), NULL, CONTENT_IMAGE, &(treeview_res[i].c)); nsurl_unref(url); } } } static void treeview_init_furniture(void) { int i; tree_g.furniture_width = 0; for (i = 0; i < TREE_FURN_LAST; i++) { nsfont.font_width(&plot_style_odd.text, treeview_furn[i].data, treeview_furn[i].len, &(treeview_furn[i].width)); if (treeview_furn[i].width > tree_g.furniture_width) tree_g.furniture_width = treeview_furn[i].width; } tree_g.furniture_width += 5; } nserror treeview_init(void) { int font_px_size; int font_pt_size = 11; treeview_init_plot_styles(font_pt_size); treeview_init_resources(); treeview_init_furniture(); font_px_size = (font_pt_size * FIXTOINT(nscss_screen_dpi) + 36) / 72; tree_g.line_height = (font_px_size * 8 + 3) / 6; tree_g.step_width = tree_g.furniture_width; tree_g.window_padding = 6; tree_g.icon_step = 23; return NSERROR_OK; } nserror treeview_fini(void) { int i; for (i = 0; i < TREE_RES_LAST; i++) { hlcache_handle_release(treeview_res[i].c); } return NSERROR_OK; } struct treeview_node * treeview_get_root(struct treeview *tree) { assert(tree != NULL); assert(tree->root != NULL); return tree->root; }