issue/47-add-vertex-count-to-gui #48

Merged
mhu merged 4 commits from issue/47-add-vertex-count-to-gui into dev 2022-04-17 20:09:47 +02:00
8 changed files with 332 additions and 183 deletions

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@ -0,0 +1,106 @@
/*
* GDSII-Converter
* Copyright (C) 2022 Mario Hüttel <mario.huettel@gmx.net>
*
* This file is part of GDSII-Converter.
*
* GDSII-Converter is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* GDSII-Converter 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 GDSII-Converter. If not, see <http://www.gnu.org/licenses/>.
*/
/**
* @file cell-statistics-renderer.c
* @brief CellStatisticsRenderer GObject Class
* @author Mario Hüttel <mario.huettel@gmx.net>
*/
/**
* @addtogroup CellStatisticsRenderer
* @{
*/
#include <gds-render/cell-selector/cell-statistics-renderer.h>
G_DEFINE_TYPE(CellStatisticsRenderer, cell_statistics_renderer, GTK_TYPE_CELL_RENDERER_TEXT)
enum {
PROP_CELL_STAT = 1,
PROP_COUNT
};
static void cell_statistics_renderer_set_property(GObject *object,
guint param_id,
const GValue *value,
GParamSpec *pspec)
{
GValue val = G_VALUE_INIT;
GString *string;
const struct gds_cell_statistics *cell_stat;
switch (param_id) {
case PROP_CELL_STAT:
cell_stat = (const struct gds_cell_statistics *)g_value_get_pointer(value);
g_value_init(&val, G_TYPE_STRING);
string = g_string_new_len("", 5);
if (cell_stat)
g_string_printf(string, "%zu (%zu) | %zu (%zu)", cell_stat->total_vertex_count,
cell_stat->vertex_count, cell_stat->total_gfx_count, cell_stat->gfx_count);
g_value_set_string(&val, string->str);
g_object_set_property(object, "text", &val);
g_value_unset(&val);
g_string_free(string, TRUE);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID(object, param_id, pspec);
break;
}
}
static void cell_statistics_renderer_get_property(GObject *object,
guint param_id,
GValue *value,
GParamSpec *pspec)
{
(void)value;
switch (param_id) {
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID(object, param_id, pspec);
break;
}
}
static GParamSpec *properties[PROP_COUNT];
void cell_statistics_renderer_class_init(CellStatisticsRendererClass *klass)
{
GObjectClass *oclass = G_OBJECT_CLASS(klass);
oclass->set_property = cell_statistics_renderer_set_property;
oclass->get_property = cell_statistics_renderer_get_property;
properties[PROP_CELL_STAT] = g_param_spec_pointer("cell-stat", "cell-stat",
"Cell statistics", G_PARAM_WRITABLE);
g_object_class_install_properties(oclass, PROP_COUNT, properties);
}
void cell_statistics_renderer_init(CellStatisticsRenderer *self)
{
(void)self;
}
GtkCellRenderer *cell_statistics_renderer_new(void)
{
return GTK_CELL_RENDERER(g_object_new(TYPE_GDS_RENDER_CELL_STAT_RENDERER, NULL));
}
/** @} */

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@ -300,78 +300,89 @@ static void print_simple_stat(GList *lib_stat_list)
int indentation_level = 0; int indentation_level = 0;
GList *lib_iter; GList *lib_iter;
GList *cell_iter; GList *cell_iter;
const struct gds_lib_statistics *lib_stats; const struct gds_library *lib;
const struct gds_cell_statistics *cell_stats; const struct gds_cell *cell;
const struct gds_lib_statistics *lib_stat;
const struct gds_cell_statistics *cell_stat;
for (lib_iter = lib_stat_list; lib_iter; lib_iter = g_list_next(lib_iter)) { for (lib_iter = lib_stat_list; lib_iter; lib_iter = g_list_next(lib_iter)) {
lib_stats = (const struct gds_lib_statistics *)lib_iter->data; lib = (const struct gds_library *)lib_iter->data;
printf_indented(indentation_level, "Library %s\n", lib_stats->library->name); lib_stat = &lib->stats;
printf_indented(indentation_level, "Library %s\n", lib->name);
indentation_level++; indentation_level++;
for (cell_iter = lib_stats->cell_statistics; cell_iter; cell_iter = g_list_next(cell_iter)) { for (cell_iter = lib->cells; cell_iter; cell_iter = g_list_next(cell_iter)) {
cell_stats = (const struct gds_cell_statistics *)cell_iter->data; cell = (const struct gds_cell *)cell_iter->data;
printf_indented(indentation_level, "Cell %s\n", cell_stats->cell->name); cell_stat = &cell->stats;
printf_indented(indentation_level, "Cell %s\n", cell->name);
indentation_level++; indentation_level++;
printf_indented(indentation_level, "Reference count: %zu\n", cell_stats->reference_count); printf_indented(indentation_level, "Reference count: %zu\n", cell_stat->reference_count);
printf_indented(indentation_level, "Graphics count: %zu\n", cell_stats->gfx_count); printf_indented(indentation_level, "Graphics count: %zu\n", cell_stat->gfx_count);
printf_indented(indentation_level, "Vertex count: %zu\n", cell_stats->vertex_count); printf_indented(indentation_level, "Total Graphics count: %zu\n", cell_stat->total_gfx_count);
printf_indented(indentation_level, "Vertex count: %zu\n", cell_stat->vertex_count);
printf_indented(indentation_level, "Total Vertex count: %zu\n", cell_stat->total_vertex_count);
printf_indented(indentation_level, "Unresolved children: %d\n", printf_indented(indentation_level, "Unresolved children: %d\n",
cell_stats->cell->checks.unresolved_child_count); cell->checks.unresolved_child_count);
printf_indented(indentation_level, "Reference loop: %s\n", printf_indented(indentation_level, "Reference loop: %s\n",
cell_stats->cell->checks.affected_by_reference_loop ? "yes" : "no"); cell->checks.affected_by_reference_loop ? "yes" : "no");
indentation_level--; indentation_level--;
} }
printf_indented(indentation_level, "Cell count: %zu\n", lib_stats->cell_count); printf_indented(indentation_level, "Cell count: %zu\n", lib_stat->cell_count);
printf_indented(indentation_level, "Reference count: %zu\n", lib_stats->reference_count); printf_indented(indentation_level, "Reference count: %zu\n", lib_stat->reference_count);
printf_indented(indentation_level, "Graphics count: %zu\n", lib_stats->gfx_count); printf_indented(indentation_level, "Graphics count: %zu\n", lib_stat->gfx_count);
printf_indented(indentation_level, "Vertex count: %zu\n", lib_stats->vertex_count); printf_indented(indentation_level, "Vertex count: %zu\n", lib_stat->vertex_count);
}
} }
static void table_stat_create_cell_row(struct gds_cell *cell, ft_table_t *tab)
{
ft_printf_ln(tab, "%s|%s|%zu|%zu|%zu|%zu|%zu|%d|%s",
cell->parent_library->name,
cell->name,
cell->stats.gfx_count,
cell->stats.total_gfx_count,
cell->stats.vertex_count,
cell->stats.total_vertex_count,
cell->stats.reference_count,
cell->checks.unresolved_child_count,
cell->checks.affected_by_reference_loop ? "yes" : "no");
} }
static void print_table_stat(GList *lib_stat_list) static void table_stat_table_for_lib(struct gds_library *lib, ft_table_t *tab)
{
ft_printf_ln(tab, "%s|%zu|%zu|-|%zu|-|%zu|-|-",
lib->name,
lib->stats.cell_count,
lib->stats.gfx_count,
lib->stats.vertex_count,
lib->stats.reference_count);
g_list_foreach(lib->cells, (GFunc)table_stat_create_cell_row, tab);
}
static void print_table_stat(GList *lib_list)
{ {
ft_table_t *table; ft_table_t *table;
GList *lib_stat_iter;
GList *cell_stat_iter;
const struct gds_lib_statistics *lib_stats;
const struct gds_cell_statistics *cell_stats;
table = ft_create_table(); table = ft_create_table();
ft_set_cell_prop(table, 0, FT_ANY_COLUMN, FT_CPROP_ROW_TYPE, FT_ROW_HEADER); ft_set_cell_prop(table, 0, FT_ANY_COLUMN, FT_CPROP_ROW_TYPE, FT_ROW_HEADER);
ft_write_ln(table, "Library", "Cell", "GFX", "GFX+", "Vertices", "Vertices+", "Refs", "Unresolved Refs", "Loops");
ft_set_cell_prop(table, 0, FT_ANY_COLUMN, FT_CPROP_ROW_TYPE, FT_ROW_HEADER); g_list_foreach(lib_list, (GFunc)table_stat_table_for_lib, table);
ft_write_ln(table, "Library", "Cell", "GFX", "Vertices", "Refs", "Unresolved Refs", "Loops");
for (lib_stat_iter = lib_stat_list; lib_stat_iter; lib_stat_iter = g_list_next(lib_stat_iter)) {
lib_stats = (const struct gds_lib_statistics *)lib_stat_iter->data;
ft_printf_ln(table, "%s|%zu|%zu|%zu|%zu|-|-", lib_stats->library->name, lib_stats->cell_count,
lib_stats->gfx_count, lib_stats->vertex_count, lib_stats->reference_count);
for (cell_stat_iter = lib_stats->cell_statistics; cell_stat_iter;
cell_stat_iter = g_list_next(cell_stat_iter)) {
cell_stats = (const struct gds_cell_statistics *)cell_stat_iter->data;
ft_printf_ln(table, "%s|%s|%zu|%zu|%zu|%d|%d", lib_stats->library->name, cell_stats->cell->name,
cell_stats->gfx_count, cell_stats->vertex_count, cell_stats->reference_count,
cell_stats->cell->checks.unresolved_child_count,
cell_stats->cell->checks.affected_by_reference_loop);
}
}
printf("%s\n", ft_to_string(table)); printf("%s\n", ft_to_string(table));
ft_destroy_table(table); ft_destroy_table(table);
} }
static void print_statistics(enum analysis_format format, GList *lib_stat_list) static void print_statistics(enum analysis_format format, GList *lib_list)
{ {
switch (format) { switch (format) {
case ANA_FORMAT_PRETTY: case ANA_FORMAT_PRETTY:
print_table_stat(lib_stat_list); print_table_stat(lib_list);
break; break;
default: default:
print_simple_stat(lib_stat_list); print_simple_stat(lib_list);
break; break;
} }
} }
@ -402,7 +413,6 @@ int command_line_analyze_lib(const char *format, const char *gds_name)
int res; int res;
int ret = 0; int ret = 0;
GList *lib_iter; GList *lib_iter;
GList *lib_stat_list = NULL;
g_return_val_if_fail(gds_name, -1002); g_return_val_if_fail(gds_name, -1002);
@ -446,14 +456,8 @@ int command_line_analyze_lib(const char *format, const char *gds_name)
goto return_clear_libs; goto return_clear_libs;
} }
print_statistics(fmt, lib_list);
gds_statistics_calc_library(lib_list, &lib_stat_list);
print_statistics(fmt, lib_stat_list);
/* Clean up the whole mess */
gds_statistics_free_lib_stat_list(&lib_stat_list);
return_clear_libs: return_clear_libs:
clear_lib_list(&lib_list); clear_lib_list(&lib_list);
return_val: return_val:

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@ -37,6 +37,7 @@
#include <gds-render/layer/layer-selector.h> #include <gds-render/layer/layer-selector.h>
#include <gds-render/widgets/activity-bar.h> #include <gds-render/widgets/activity-bar.h>
#include <gds-render/cell-selector/lib-cell-renderer.h> #include <gds-render/cell-selector/lib-cell-renderer.h>
#include <gds-render/cell-selector/cell-statistics-renderer.h>
#include <gds-render/output-renderers/latex-renderer.h> #include <gds-render/output-renderers/latex-renderer.h>
#include <gds-render/output-renderers/cairo-renderer.h> #include <gds-render/output-renderers/cairo-renderer.h>
#include <gds-render/widgets/conv-settings-dialog.h> #include <gds-render/widgets/conv-settings-dialog.h>
@ -48,6 +49,7 @@ enum cell_store_columns {
CELL_SEL_LIBRARY = 0, CELL_SEL_LIBRARY = 0,
CELL_SEL_CELL, CELL_SEL_CELL,
CELL_SEL_CELL_ERROR_STATE, /**< Used for cell color and selectability */ CELL_SEL_CELL_ERROR_STATE, /**< Used for cell color and selectability */
CELL_SEL_STAT,
CELL_SEL_COLUMN_COUNT /**< @brief Not a column. Used to determine count of columns */ CELL_SEL_COLUMN_COUNT /**< @brief Not a column. Used to determine count of columns */
}; };
@ -219,10 +221,11 @@ int gds_render_gui_setup_cell_selector(GdsRenderGui *self)
{ {
GtkCellRenderer *render_cell; GtkCellRenderer *render_cell;
GtkCellRenderer *render_lib; GtkCellRenderer *render_lib;
GtkCellRenderer *render_vertex_count;
GtkTreeViewColumn *column; GtkTreeViewColumn *column;
self->cell_tree_store = gtk_tree_store_new(CELL_SEL_COLUMN_COUNT, G_TYPE_POINTER, self->cell_tree_store = gtk_tree_store_new(CELL_SEL_COLUMN_COUNT, G_TYPE_POINTER,
G_TYPE_POINTER, G_TYPE_UINT); G_TYPE_POINTER, G_TYPE_UINT, G_TYPE_POINTER);
/* Searching */ /* Searching */
self->cell_filter = GTK_TREE_MODEL_FILTER( self->cell_filter = GTK_TREE_MODEL_FILTER(
@ -238,6 +241,7 @@ int gds_render_gui_setup_cell_selector(GdsRenderGui *self)
render_cell = lib_cell_renderer_new(); render_cell = lib_cell_renderer_new();
render_lib = lib_cell_renderer_new(); render_lib = lib_cell_renderer_new();
render_vertex_count = cell_statistics_renderer_new();
column = gtk_tree_view_column_new_with_attributes(_("Library"), render_lib, "gds-lib", CELL_SEL_LIBRARY, NULL); column = gtk_tree_view_column_new_with_attributes(_("Library"), render_lib, "gds-lib", CELL_SEL_LIBRARY, NULL);
gtk_tree_view_append_column(self->cell_tree_view, column); gtk_tree_view_append_column(self->cell_tree_view, column);
@ -246,6 +250,10 @@ int gds_render_gui_setup_cell_selector(GdsRenderGui *self)
"error-level", CELL_SEL_CELL_ERROR_STATE, NULL); "error-level", CELL_SEL_CELL_ERROR_STATE, NULL);
gtk_tree_view_append_column(self->cell_tree_view, column); gtk_tree_view_append_column(self->cell_tree_view, column);
column = gtk_tree_view_column_new_with_attributes(_("Vertex | GFX Count"), render_vertex_count, "cell-stat", CELL_SEL_STAT,
NULL);
gtk_tree_view_append_column(self->cell_tree_view, column);
/* Callback for selection /* Callback for selection
* This prevents selecting a library * This prevents selecting a library
*/ */
@ -255,6 +263,10 @@ int gds_render_gui_setup_cell_selector(GdsRenderGui *self)
return 0; return 0;
} }
const struct gds_cell_statistics cc = {
.vertex_count = 12,
};
/** /**
* @brief Callback function of Load GDS button * @brief Callback function of Load GDS button
* @param button * @param button
@ -353,6 +365,7 @@ static void on_load_gds(gpointer button, gpointer user)
CELL_SEL_CELL, gds_c, CELL_SEL_CELL, gds_c,
CELL_SEL_CELL_ERROR_STATE, cell_error_level, CELL_SEL_CELL_ERROR_STATE, cell_error_level,
CELL_SEL_LIBRARY, gds_c->parent_library, CELL_SEL_LIBRARY, gds_c->parent_library,
CELL_SEL_STAT, &gds_c->stats,
-1); -1);
} /* for cells */ } /* for cells */
} /* for libraries */ } /* for libraries */

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@ -43,6 +43,7 @@
#include <glib/gi18n.h> #include <glib/gi18n.h>
#include <gds-render/gds-utils/gds-parser.h> #include <gds-render/gds-utils/gds-parser.h>
#include <gds-render/gds-utils/gds-statistics.h>
/** /**
* @brief Default units assumed for library. * @brief Default units assumed for library.
@ -279,8 +280,13 @@ static GList *append_library(GList *curr_list, const struct gds_library_parsing_
lib->cell_names = NULL; lib->cell_names = NULL;
/* Copy the settings into the library */ /* Copy the settings into the library */
memcpy(&lib->parsing_opts, opts, sizeof(struct gds_library_parsing_opts)); memcpy(&lib->parsing_opts, opts, sizeof(struct gds_library_parsing_opts));
} else lib->stats.cell_count = 0;
lib->stats.gfx_count = 0;
lib->stats.reference_count = 0;
lib->stats.vertex_count = 0;
} else {
return NULL; return NULL;
}
if (library_ptr) if (library_ptr)
*library_ptr = lib; *library_ptr = lib;
@ -356,6 +362,10 @@ static GList *append_cell(GList *curr_list, struct gds_cell **cell_ptr)
cell->parent_library = NULL; cell->parent_library = NULL;
cell->checks.unresolved_child_count = GDS_CELL_CHECK_NOT_RUN; cell->checks.unresolved_child_count = GDS_CELL_CHECK_NOT_RUN;
cell->checks.affected_by_reference_loop = GDS_CELL_CHECK_NOT_RUN; cell->checks.affected_by_reference_loop = GDS_CELL_CHECK_NOT_RUN;
cell->stats.reference_count = 0;
cell->stats.total_vertex_count = 0;
cell->stats.gfx_count = 0;
cell->stats.vertex_count = 0;
} else } else
return NULL; return NULL;
/* return cell */ /* return cell */
@ -605,6 +615,15 @@ static void scan_library_references(gpointer library_list_item, gpointer user)
g_list_foreach(lib->cells, scan_cell_references_and_polygons, lib); g_list_foreach(lib->cells, scan_cell_references_and_polygons, lib);
} }
static void calc_library_stats(gpointer library_list_item, gpointer user)
{
struct gds_library *lib = (struct gds_library *)library_list_item;
(void)user;
GDS_INF("Calculating stats for Library: %s\n", lib->name);
gds_statistics_calc_cummulative_counts_in_lib(lib);
}
/** /**
* @brief gds_parse_date * @brief gds_parse_date
* @param buffer Buffer that contains the GDS Date field * @param buffer Buffer that contains the GDS Date field
@ -686,6 +705,7 @@ static void convert_aref_to_sref(struct gds_cell_array_instance *aref, struct gd
for (row = 0; row < aref->rows; row++) { for (row = 0; row < aref->rows; row++) {
/* Create new instance for this row/column and configure data */ /* Create new instance for this row/column and configure data */
container_cell->child_cells = append_cell_ref(container_cell->child_cells, &sref_inst); container_cell->child_cells = append_cell_ref(container_cell->child_cells, &sref_inst);
container_cell->stats.reference_count++;
if (!sref_inst) { if (!sref_inst) {
GDS_ERROR("Appending cell ref failed!"); GDS_ERROR("Appending cell ref failed!");
continue; continue;
@ -867,6 +887,7 @@ int parse_gds_from_file(const char *filename, GList **library_list,
} }
current_cell->child_cells = append_cell_ref(current_cell->child_cells, current_cell->child_cells = append_cell_ref(current_cell->child_cells,
&current_s_reference); &current_s_reference);
current_cell->stats.reference_count++;
if (current_cell->child_cells == NULL) { if (current_cell->child_cells == NULL) {
GDS_ERROR("Memory allocation failed"); GDS_ERROR("Memory allocation failed");
run = -4; run = -4;
@ -896,6 +917,9 @@ int parse_gds_from_file(const char *filename, GList **library_list,
: (current_graphics->gfx_type == GRAPHIC_PATH ? "path" : (current_graphics->gfx_type == GRAPHIC_PATH ? "path"
: "box"))); : "box")));
current_graphics = NULL; current_graphics = NULL;
if (current_cell) {
current_cell->stats.gfx_count++;
}
} }
if (current_s_reference != NULL) { if (current_s_reference != NULL) {
GDS_INF("\tLeaving Reference\n"); GDS_INF("\tLeaving Reference\n");
@ -1045,7 +1069,9 @@ int parse_gds_from_file(const char *filename, GList **library_list,
current_graphics->vertices = current_graphics->vertices =
append_vertex(current_graphics->vertices, x, y); append_vertex(current_graphics->vertices, x, y);
GDS_INF("\t\tSet coordinate: %d/%d\n", x, y); GDS_INF("\t\tSet coordinate: %d/%d\n", x, y);
if (current_cell) {
current_cell->stats.vertex_count++;
}
} }
} else if (current_a_reference) { } else if (current_a_reference) {
for (i = 0; i < 3; i++) { for (i = 0; i < 3; i++) {
@ -1161,8 +1187,13 @@ int parse_gds_from_file(const char *filename, GList **library_list,
if (!run) { if (!run) {
/* Iterate and find references to cells */ /* Iterate and find references to cells */
g_list_foreach(lib_list, scan_library_references, NULL); g_list_foreach(lib_list, scan_library_references, NULL);
/* Calculate lib stats and cummulative total counts */
g_list_foreach(lib_list, calc_library_stats, NULL);
} }
*library_list = lib_list; *library_list = lib_list;
free(workbuff); free(workbuff);

View File

@ -32,105 +32,61 @@
* @{ * @{
*/ */
void gds_statistics_calc_cell(const struct gds_cell *cell, struct gds_cell_statistics *stat) #define MAX_RECURSION_DEPTH (1024)
static void calculate_vertex_gfx_count_cell(struct gds_cell *cell, unsigned int recursion_depth)
{
GList *cell_iter;
struct gds_cell_instance *cell_ref;
struct gds_cell *sub_cell;
g_return_if_fail(cell);
/* Check if cell has already been calculated */
if (cell->stats.total_gfx_count && cell->stats.total_vertex_count) {
/* Return. This cell and all of its subcells have been calculated */
return;
}
/* Update with own vertex / GFX count */
cell->stats.total_vertex_count = cell->stats.vertex_count;
cell->stats.total_gfx_count = cell->stats.gfx_count;
/* Do not analyze further, if maximum recursion depth is reached */
if (!recursion_depth)
return;
for (cell_iter = cell->child_cells; cell_iter; cell_iter = g_list_next(cell_iter)) {
/* Scan all subcells recursively, if there are any */
cell_ref = (struct gds_cell_instance *)cell_iter->data;
sub_cell = (struct gds_cell *)cell_ref->cell_ref;
calculate_vertex_gfx_count_cell(sub_cell, recursion_depth - 1);
/* Increment count */
cell->stats.total_vertex_count += sub_cell->stats.total_vertex_count;
cell->stats.total_gfx_count += sub_cell->stats.total_vertex_count;
}
}
void gds_statistics_calc_cummulative_counts_in_lib(struct gds_library *lib)
{ {
GList *iter;
GList *vertex_iter;
struct gds_graphics *gfx;
if (!stat) {
fprintf(stderr, "Internal pointer error.\n");
return;
}
stat->cell = NULL;
stat->gfx_count = 0;
stat->reference_count = 0;
stat->vertex_count = 0;
if (!cell) {
fprintf(stderr, "Internal pointer error.\n");
return;
}
stat->cell = cell;
/* Sum up references */
for (iter = cell->child_cells; iter; iter = g_list_next(iter))
stat->reference_count++;
/* Sum up graphics objects and vertices */
for (iter = cell->graphic_objs; iter; iter = g_list_next(iter)) {
gfx = (struct gds_graphics *)iter->data;
stat->gfx_count++;
for (vertex_iter = gfx->vertices; vertex_iter; vertex_iter = g_list_next(vertex_iter)) {
stat->vertex_count++;
}
}
}
void gds_statistics_calc_library(GList *library_list, GList **lib_stat_list)
{
GList *lib_iter;
GList *cell_iter; GList *cell_iter;
struct gds_lib_statistics *lib_stats;
struct gds_cell_statistics *cell_stats;
struct gds_library *gds_lib;
struct gds_cell *cell; struct gds_cell *cell;
/* Go through each library/cell and generate statistics */ g_return_if_fail(lib);
for (lib_iter = library_list; lib_iter; lib_iter = g_list_next(lib_iter)) {
gds_lib = (struct gds_library *)lib_iter->data;
lib_stats = (struct gds_lib_statistics *)malloc(sizeof(struct gds_lib_statistics));
if (!lib_stats) {
g_error("Failed allocating memory");
}
lib_stats->library = gds_lib; for (cell_iter = lib->cells; cell_iter; cell_iter = g_list_next(cell_iter)) {
lib_stats->gfx_count = 0;
lib_stats->cell_count = 0;
lib_stats->reference_count = 0;
lib_stats->vertex_count = 0;
lib_stats->cell_statistics = NULL;
for (cell_iter = gds_lib->cells; cell_iter; cell_iter = g_list_next(cell_iter)) {
cell = (struct gds_cell *)cell_iter->data; cell = (struct gds_cell *)cell_iter->data;
cell_stats = (struct gds_cell_statistics *)malloc(sizeof(struct gds_cell_statistics)); calculate_vertex_gfx_count_cell(cell, MAX_RECURSION_DEPTH);
lib_stats->cell_count++; lib->stats.vertex_count += cell->stats.vertex_count;
gds_statistics_calc_cell(cell, cell_stats); lib->stats.cell_count++;
lib_stats->gfx_count += cell_stats->gfx_count; lib->stats.gfx_count += cell->stats.gfx_count;
lib_stats->reference_count += cell_stats->reference_count; lib->stats.reference_count += cell->stats.reference_count;
lib_stats->vertex_count += cell_stats->vertex_count;
lib_stats->cell_statistics = g_list_append(lib_stats->cell_statistics, cell_stats);
} }
*lib_stat_list = g_list_append(*lib_stat_list, lib_stats);
} /* for lib */
}
static void free_stat_object(gpointer stat_obj)
{
if (stat_obj)
free(stat_obj);
}
void gds_statistics_free_lib_stat_list(GList **lib_stat_list)
{
GList *lib_iter;
struct gds_lib_statistics *lib_stats;
g_return_if_fail(lib_stat_list);
g_return_if_fail(*lib_stat_list);
for (lib_iter = *lib_stat_list; lib_iter; lib_iter = g_list_next(lib_iter)) {
lib_stats = (struct gds_lib_statistics *) lib_iter->data;
g_list_free_full(lib_stats->cell_statistics,
free_stat_object);
}
g_list_free_full(*lib_stat_list, free_stat_object);
*lib_stat_list = NULL;
} }

View File

@ -0,0 +1,56 @@
/*
* GDSII-Converter
* Copyright (C) 2022 Mario Hüttel <mario.huettel@gmx.net>
*
* This file is part of GDSII-Converter.
*
* GDSII-Converter is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* GDSII-Converter 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 GDSII-Converter. If not, see <http://www.gnu.org/licenses/>.
*/
/**
* @file cell-statistics-renderer.h
* @brief Header file for the CellStatisticsRenderer GObject Class
* @author Mario Hüttel <mario.huettel@gmx.net>
*/
/**
* @addtogroup CellStatisticsRenderer
* @{
*/
#ifndef _CELL_STATISTICS_RENDERER_H_
#define _CELL_STATISTICS_RENDERER_H_
#include <gtk/gtk.h>
#include <gds-render/gds-utils/gds-statistics.h>
G_BEGIN_DECLS
G_DECLARE_FINAL_TYPE(CellStatisticsRenderer, cell_statistics_renderer, GDS_RENDER, CELL_STAT_RENDERER, GtkCellRendererText)
#define TYPE_GDS_RENDER_CELL_STAT_RENDERER (cell_statistics_renderer_get_type())
typedef struct _CellStatisticsRenderer {
GtkCellRendererText super;
} CellStatisticsRenderer;
/**
* @brief New Cell statistics renderer
* @return GObject
*/
GtkCellRenderer *cell_statistics_renderer_new(void);
G_END_DECLS
#endif /* _CELL_STATISTICS_RENDERER_H_ */
/** @} */

View File

@ -35,43 +35,7 @@
#include <gds-render/gds-utils/gds-types.h> #include <gds-render/gds-utils/gds-types.h>
struct gds_cell_statistics { void gds_statistics_calc_cummulative_counts_in_lib(struct gds_library *lib);
size_t gfx_count;
size_t vertex_count;
size_t reference_count;
const struct gds_cell *cell;
};
struct gds_lib_statistics {
size_t gfx_count;
size_t vertex_count;
size_t reference_count;
size_t cell_count;
GList *cell_statistics;
const struct gds_library *library;
};
/**
* @brief Calculate statistics of a single cell
* @param[in] cell GDS cell
* @param[out] stat Statistics output
*/
void gds_statistics_calc_cell(const struct gds_cell *cell,
struct gds_cell_statistics *stat);
/**
* @brief Calc statistic information for library
* @param[in] library_list List containing all libraries
* @param[in,out] lib_stat_list Statistic list
*/
void gds_statistics_calc_library(GList * library_list,
GList ** lib_stat_list);
/**
* @brief Free library statistics GList
* @param[in,out] lib_stat_list List to free
*/
void gds_statistics_free_lib_stat_list(GList ** lib_stat_list);
/** @} */ /** @} */

View File

@ -65,6 +65,22 @@ struct gds_point {
int y; int y;
}; };
struct gds_cell_statistics {
size_t gfx_count;
size_t vertex_count;
size_t total_vertex_count;
size_t total_gfx_count;
size_t reference_count;
};
struct gds_lib_statistics {
size_t gfx_count;
size_t vertex_count;
size_t reference_count;
size_t cell_count;
};
/** /**
* @brief Stores the result of the cell checks. * @brief Stores the result of the cell checks.
*/ */
@ -127,6 +143,7 @@ struct gds_cell {
GList *graphic_objs; /**< @brief List of #gds_graphics */ GList *graphic_objs; /**< @brief List of #gds_graphics */
struct gds_library *parent_library; /**< @brief Pointer to parent library */ struct gds_library *parent_library; /**< @brief Pointer to parent library */
struct gds_cell_checks checks; /**< @brief Checking results */ struct gds_cell_checks checks; /**< @brief Checking results */
struct gds_cell_statistics stats; /**< @brief Optional statistic info */
}; };
/** /**
@ -147,8 +164,10 @@ struct gds_library {
double unit_in_meters; /**< Length of a database unit in meters */ double unit_in_meters; /**< Length of a database unit in meters */
GList *cells; /**< List of #gds_cell that contains all cells in this library*/ GList *cells; /**< List of #gds_cell that contains all cells in this library*/
GList *cell_names /**< List of strings that contains all cell names */; GList *cell_names /**< List of strings that contains all cell names */;
struct gds_lib_statistics stats;
}; };
/** @} */ /** @} */
#endif /* __GDS_TYPES_H__ */ #endif /* __GDS_TYPES_H__ */