Issue #19: Implement first draft of command line rendering (synchronous-mode). Not yet fully tested!!

This commit is contained in:
Mario Hüttel 2019-06-22 01:21:26 +02:00
parent 01ab56e07a
commit 01c9701492
3 changed files with 123 additions and 88 deletions

View File

@ -39,58 +39,117 @@
#include <gds-render/output-renderers/external-renderer.h> #include <gds-render/output-renderers/external-renderer.h>
#include <gds-render/gds-utils/gds-tree-checker.h> #include <gds-render/gds-utils/gds-tree-checker.h>
/** static int string_array_count(char **string_array)
* @brief Delete layer_info and free nem element.
*
* Like delete_layer_info_struct() but also frees layer_info::name
* @param info
* @warning This function must not be used if the layer_info::name field references the internal storage strings if e.g. an entry field
*/
static void delete_layer_info_with_name(struct layer_info *info)
{ {
if (info) { int count = 0;
if (info->name)
g_free(info->name); if (!string_array)
free(info); return 0;
}
for (; *string_array; string_array++) {
count++;
} }
static void check_renderers_and_output_files() return count;
}
static int create_renderers(char **renderers,
char **output_file_names,
gboolean tex_layers,
gboolean tex_standalone,
const char *so_path,
GList **renderer_list,
LayerSettings *layer_settings)
{ {
char **renderer_iter;
char *current_renderer;
int idx;
char *current_out_file;
int count_render, count_out;
GdsOutputRenderer *output_renderer;
if (!renderer_list)
return -1;
if (!renderers || !output_file_names) {
fprintf(stderr, "Please specify renderers and file names\n");
return -1;
} }
void command_line_convert_gds(const char *gds_name, count_render = string_array_count(renderers);
count_out = string_array_count(output_file_names);
if (count_render != count_out) {
fprintf(stderr, "Count of renderers %d does not match count of output file names %d\n",
count_render, count_out);
return -1;
}
/* Parse cmd line parameters */
for (renderer_iter = renderers, idx = 0; *renderer_iter; renderer_iter++, idx++) {
current_renderer = *renderer_iter;
current_out_file = output_file_names[idx];
/* File valid ? */
if (!current_out_file || !current_out_file[0])
continue;
if (!strcmp(current_renderer, "tikz")) {
output_renderer = GDS_RENDER_OUTPUT_RENDERER(latex_renderer_new_with_options(tex_layers,
tex_standalone));
} else if (!strcmp(current_renderer, "pdf")) {
output_renderer = GDS_RENDER_OUTPUT_RENDERER(cairo_renderer_new_pdf());
} else if (!strcmp(current_renderer, "svg")) {
output_renderer = GDS_RENDER_OUTPUT_RENDERER(cairo_renderer_new_svg());
} else if (!strcmp(current_renderer, "ext")) {
if (!so_path)
continue;
output_renderer = GDS_RENDER_OUTPUT_RENDERER(external_renderer_new_with_so(so_path));
} else {
continue;
}
gds_output_renderer_set_output_file(output_renderer, current_out_file);
gds_output_renderer_set_layer_settings(output_renderer, layer_settings);
*renderer_list = g_list_append(*renderer_list, output_renderer);
}
return 0;
}
int command_line_convert_gds(const char *gds_name,
const char *cell_name, const char *cell_name,
const char * const *renderers, char **renderers,
const char * const *output_file_names, char **output_file_names,
const char *layer_file, const char *layer_file,
const char *so_path) const char *so_path,
gboolean tex_standalone,
gboolean tex_layers,
double scale)
{ {
int ret = -1;
GList *libs = NULL; GList *libs = NULL;
int res; int res;
GFile *file;
int i;
GFileInputStream *stream;
GDataInputStream *dstream;
gboolean layer_export;
GdkRGBA layer_color;
int layer;
char *layer_name;
GList *layer_info_list = NULL;
GList *cell_list; GList *cell_list;
struct layer_info *linfo_temp; GList *renderer_list = NULL;
GList *list_iter;
struct gds_library *first_lib; struct gds_library *first_lib;
struct gds_cell *toplevel_cell = NULL, *temp_cell; struct gds_cell *toplevel_cell = NULL, *temp_cell;
GdsOutputRenderer *output_renderer; LayerSettings *layer_sett;
gboolean tex_layers = FALSE, tex_standalone = FALSE; GdsOutputRenderer *current_renderer;
/* Check if parameters are valid */ /* Check if parameters are valid */
if (!gds_name || !cell_name || !output_file_names || !layer_file || !renderers) { if (!gds_name || !cell_name || !output_file_names || !layer_file || !renderers) {
printf("Probably missing argument. Check --help option\n"); printf("Probably missing argument. Check --help option\n");
return; return -2;
} }
/* Load layer_settings */
layer_sett = layer_settings_new();
layer_settings_load_from_csv(layer_sett, layer_file);
/* Create renderers */
if (create_renderers(renderers, output_file_names, tex_layers, tex_standalone, so_path, &renderer_list, layer_sett))
goto ret_destroy_layer_mapping;
/* Load GDS */ /* Load GDS */
@ -99,45 +158,15 @@ void command_line_convert_gds(const char *gds_name,
if (res) if (res)
goto ret_destroy_library_list; goto ret_destroy_library_list;
file = g_file_new_for_path(layer_file);
stream = g_file_read(file, NULL, NULL);
if (!stream) {
printf("Layer mapping not readable!\n");
goto ret_destroy_file;
}
dstream = g_data_input_stream_new(G_INPUT_STREAM(stream));
i = 0;
do {
res = mapping_parser_load_line(dstream, &layer_export, &layer_name, &layer, &layer_color);
if (res == 0) {
if (!layer_export)
continue;
linfo_temp = (struct layer_info *)malloc(sizeof(struct layer_info));
if (!linfo_temp) {
printf("Out of memory\n");
goto ret_clear_layer_list;
}
linfo_temp->color.alpha = layer_color.alpha;
linfo_temp->color.red = layer_color.red;
linfo_temp->color.green = layer_color.green;
linfo_temp->color.blue = layer_color.blue;
linfo_temp->name = layer_name;
linfo_temp->stacked_position = i++;
linfo_temp->layer = layer;
layer_info_list = g_list_append(layer_info_list, (gpointer)linfo_temp);
}
} while(res >= 0);
/* find_cell in first library. */ /* find_cell in first library. */
if (!libs) if (!libs)
goto ret_clear_layer_list; goto ret_clear_renderers;
first_lib = (struct gds_library *)libs->data; first_lib = (struct gds_library *)libs->data;
if (!first_lib) { if (!first_lib) {
fprintf(stderr, "No library in library list. This should not happen.\n"); fprintf(stderr, "No library in library list. This should not happen.\n");
goto ret_clear_layer_list; /* This is safe. Library destruction can handle an empty list element */
goto ret_destroy_library_list;
} }
for (cell_list = first_lib->cells; cell_list != NULL; cell_list = g_list_next(cell_list)) { for (cell_list = first_lib->cells; cell_list != NULL; cell_list = g_list_next(cell_list)) {
@ -150,21 +179,21 @@ void command_line_convert_gds(const char *gds_name,
if (!toplevel_cell) { if (!toplevel_cell) {
printf("Couldn't find cell in first library!\n"); printf("Couldn't find cell in first library!\n");
goto ret_clear_layer_list; goto ret_destroy_library_list;
} }
/* Check if cell passes vital checks */ /* Check if cell passes vital checks */
res = gds_tree_check_reference_loops(toplevel_cell->parent_library); res = gds_tree_check_reference_loops(toplevel_cell->parent_library);
if (res < 0) { if (res < 0) {
fprintf(stderr, "Checking library %s failed.\n", first_lib->name); fprintf(stderr, "Checking library %s failed.\n", first_lib->name);
goto ret_clear_layer_list; goto ret_destroy_library_list;
} else if (res > 0) { } else if (res > 0) {
fprintf(stderr, "%d reference loops found.\n", res); fprintf(stderr, "%d reference loops found.\n", res);
/* do further checking if the specified cell and/or its subcells are affected */ /* do further checking if the specified cell and/or its subcells are affected */
if (toplevel_cell->checks.affected_by_reference_loop == 1) { if (toplevel_cell->checks.affected_by_reference_loop == 1) {
fprintf(stderr, "Cell is affected by reference loop. Abort!\n"); fprintf(stderr, "Cell is affected by reference loop. Abort!\n");
goto ret_clear_layer_list; goto ret_destroy_library_list;
} }
} }
@ -175,22 +204,21 @@ void command_line_convert_gds(const char *gds_name,
* Deal with it. * Deal with it.
*/ */
/* Execute all rendererer instances */
for (list_iter = renderer_list; list_iter; list_iter = list_iter->next) {
current_renderer = GDS_RENDER_OUTPUT_RENDERER(list_iter->data);
gds_output_renderer_render_output(current_renderer, toplevel_cell, scale);
}
/* Render */
/* Render end */
ret_clear_layer_list:
g_list_free_full(layer_info_list, (GDestroyNotify)delete_layer_info_with_name);
g_object_unref(dstream);
g_object_unref(stream);
ret_destroy_file:
g_object_unref(file);
/* Delete all allocated libraries */
ret_destroy_library_list: ret_destroy_library_list:
clear_lib_list(&libs); clear_lib_list(&libs);
ret_clear_renderers:
for (list_iter = renderer_list; list_iter; list_iter = list_iter->next) {
g_object_unref(list_iter->data);
}
ret_destroy_layer_mapping:
g_object_unref(layer_sett);
return ret;
} }
/** @} */ /** @} */

View File

@ -40,14 +40,21 @@
* @param renderers Renderer ids * @param renderers Renderer ids
* @param output_file_names Output file names * @param output_file_names Output file names
* @param layer_file Layer mapping file * @param layer_file Layer mapping file
* @param so_path Shared object path * @param so_path Shared object
* @param tex_standalone Standalone TeX
* @param tec_layers TeX OCR layers
* @param scale Scale value
* @return Error code, 0 if successful
*/ */
void command_line_convert_gds(const char *gds_name, int command_line_convert_gds(const char *gds_name,
const char *cell_name, const char *cell_name,
const char * const *renderers, char **renderers,
const char * const *output_file_names, char **output_file_names,
const char *layer_file, const char *layer_file,
const char *so_path); const char *so_path,
gboolean tex_standalone,
gboolean tex_layers,
double scale);
#endif /* _COMMAND_LINE_H_ */ #endif /* _COMMAND_LINE_H_ */

8
main.c
View File

@ -240,7 +240,6 @@ int main(int argc, char **argv)
GError *error = NULL; GError *error = NULL;
GOptionContext *context; GOptionContext *context;
gchar *gds_name; gchar *gds_name;
gchar *basename;
gchar **output_paths = NULL; gchar **output_paths = NULL;
gchar *mappingname = NULL; gchar *mappingname = NULL;
gchar *cellname = NULL; gchar *cellname = NULL;
@ -292,14 +291,15 @@ int main(int argc, char **argv)
printf("Ignored argument: %s", argv[i]); printf("Ignored argument: %s", argv[i]);
} }
app_status =
command_line_convert_gds(gds_name, cellname, renderer_args, output_paths, mappingname,
custom_library_path, pdf_standalone, pdf_layers, scale);
} else { } else {
app_status = start_gui(argc, argv); app_status = start_gui(argc, argv);
} }
ret_status: ret_status:
/* If necessary, free command line parameters */ /* If necessary, free command line parameters */
if (output_paths) if (output_paths)
g_strfreev(output_paths); g_strfreev(output_paths);
@ -309,7 +309,7 @@ ret_status:
g_free(mappingname); g_free(mappingname);
if (cellname) if (cellname)
free(cellname); free(cellname);
if (custom_library_path); if (custom_library_path)
free(custom_library_path); free(custom_library_path);
return app_status; return app_status;