/* * GDSII-Converter * Copyright (C) 2018 Mario Hüttel * * 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 . */ /* * What's missing? - A lot: * Support for Boxes * Support for 4 Byte real * Support for pathtypes * Support for datatypes (only layer so far) * etc... */ #include "gdsparse.h" #include #include #include #include #include #define GDS_ERROR(fmt, ...) printf("[PARSE_ERROR] " fmt "\n", ##__VA_ARGS__) #define GDS_WARN(fmt, ...) printf("[PARSE_WARNING] " fmt "\n", ##__VA_ARGS__) enum record { INVALID = 0x0000, HEADER = 0x0002, BGNLIB = 0x0102, LIBNAME = 0x0206, UNITS = 0x0305, ENDLIB = 0x0400, BGNSTR = 0x0502, STRNAME = 0x0606, ENDSTR = 0x0700, BOUNDARY = 0x0800, PATH = 0x0900, SREF = 0x0A00, ENDEL = 0x1100, XY = 0x1003, MAG = 0x1B05, ANGLE = 0x1C05, SNAME = 0x1206, STRANS = 0x1A01, BOX = 0x2D00, LAYER = 0x0D02, }; static int name_cell_ref(struct gds_cell_instance *cell_inst, unsigned int bytes, char *data) { int len; if (cell_inst == NULL) { GDS_ERROR("Naming cell ref with no opened cell ref"); return -1; } data[bytes] = 0; // Append '0' len = strlen(data); if (len > CELL_NAME_MAX-1) { GDS_ERROR("Cell name '%s' too long: %d\n", data, len); return -1; } /* else: */ strcpy(cell_inst->ref_name, data); printf("\tCell referenced: %s\n", cell_inst->ref_name); return 0; } static double gds_convert_double(char *data) { bool sign_bit; int i; double ret_val; char current_byte; int bit = 0; int exponent; sign_bit = ((data[0] & 0x80) ? true : false); /* Check for real 0 */ for (i = 0; i < 8; i++) { if (data[i] != 0) break; if (i == 7) { /* 7 bytes all 0 */ return 0.0; } } /* Value is other than 0 */ ret_val = 0.0; for (i = 8; i < 64; i++) { current_byte = data[i/8]; bit = i % 8; /* isolate bit */ if ((current_byte & (0x80 >> bit))) ret_val += pow(2, ((double)(-i+7))); } /* Parse exponent and sign bit */ exponent = (int)(data[0] & 0x7F); exponent -= 64; ret_val *= pow(16, exponent) * (sign_bit == true ? -1 : 1); return ret_val; } static signed int gds_convert_signed_int(char *data) { int ret; if (!data) { GDS_ERROR("This should not happen"); return 0; } ret = (signed int)(((((int)data[0]) & 0xFF) << 24) | ((((int)data[1]) & 0xFF) << 16) | (((int)(data[2]) & 0xFF) << 8) | (((int)(data[3]) & 0xFF) << 0)); return ret; } static int16_t gds_convert_signed_int16(char *data) { if (!data) { GDS_ERROR("This should not happen"); return 0; } return (int16_t)((((int16_t)(data[0]) & 0xFF) << 8) | (((int16_t)(data[1]) & 0xFF) << 0)); } static GList *append_library(GList *curr_list) { struct gds_library *lib; lib = (struct gds_library *)malloc(sizeof(struct gds_library)); if (lib) { lib->cells = NULL; lib->name[0] = 0; lib->unit_to_meters = 1; // Default. Will be overwritten lib->cell_names = NULL; } else return NULL; return g_list_append(curr_list, lib); } static GList *append_graphics(GList *curr_list, enum graphics_type type, struct gds_graphics **graphics_ptr) { struct gds_graphics *gfx; gfx = (struct gds_graphics *)malloc(sizeof(struct gds_graphics)); if (gfx) { gfx->datatype = 0; gfx->layer = 0; gfx->vertices = NULL; gfx->width_absolute = 0; gfx->type = type; } else return NULL; if (graphics_ptr) *graphics_ptr = gfx; return g_list_append(curr_list, gfx); } static GList *append_vertex(GList *curr_list, int x, int y) { struct gds_point *vertex; vertex = (struct gds_point *)malloc(sizeof(struct gds_point)); if (vertex) { vertex->x = x; vertex->y = y; } else return NULL; return g_list_append(curr_list, vertex); } static GList *append_cell(GList *curr_list, struct gds_cell **cell_ptr) { struct gds_cell *cell; cell = (struct gds_cell *)malloc(sizeof(struct gds_cell)); if (cell) { cell->child_cells = NULL; cell->graphic_objs = NULL; cell->name[0] = 0; } else return NULL; /* return cell */ if (cell_ptr) *cell_ptr = cell; return g_list_append(curr_list, cell); } static GList *append_cell_ref(GList *curr_list, struct gds_cell_instance **instance_ptr) { struct gds_cell_instance *inst; inst = (struct gds_cell_instance *) malloc(sizeof(struct gds_cell_instance)); if (inst) { inst->cell_ref = NULL; inst->ref_name[0] = 0; inst->magnification = 1; inst->flipped = 0; inst->angle = 0; } else return NULL; if (instance_ptr) *instance_ptr = inst; return g_list_append(curr_list, inst); } static int name_library(struct gds_library *current_library, unsigned int bytes, char *data) { int len; if (current_library == NULL) { GDS_ERROR("Naming cell with no opened library"); return -1; } data[bytes] = 0; // Append '0' len = strlen(data); if (len > CELL_NAME_MAX-1) { GDS_ERROR("Library name '%s' too long: %d\n", data, len); return -1; } strcpy(current_library->name, data); printf("Named library: %s\n", current_library->name); return 0; } static int name_cell(struct gds_cell *cell, unsigned int bytes, char *data, struct gds_library *lib) { int len; if (cell == NULL) { GDS_ERROR("Naming library with no opened library"); return -1; } data[bytes] = 0; // Append '0' len = strlen(data); if (len > CELL_NAME_MAX-1) { GDS_ERROR("Cell name '%s' too long: %d\n", data, len); return -1; } strcpy(cell->name, data); printf("Named cell: %s\n", cell->name); /* Append cell name to lib's list of names */ lib->cell_names = g_list_append(lib->cell_names, cell->name); return 0; } void parse_reference_list(gpointer gcell_ref, gpointer glibrary) { struct gds_cell_instance *inst = (struct gds_cell_instance *)gcell_ref; struct gds_library *lib = (struct gds_library *)glibrary; GList *cell_item; struct gds_cell *cell; printf("\t\t\tReference: %s: ", inst->ref_name); /* Find cell */ for (cell_item = lib->cells; cell_item != NULL; cell_item = cell_item->next) { cell = (struct gds_cell *)cell_item->data; /* Check if cell is found */ if (!strcmp(cell->name, inst->ref_name)) { printf("found\n"); /* update reference link */ inst->cell_ref = cell; return; } } printf("MISSING!\n"); GDS_WARN("referenced cell could not be found in library"); } void scan_cell_reference_dependencies(gpointer gcell, gpointer library) { struct gds_cell *cell = (struct gds_cell *)gcell; printf("\tScanning cell: %s\n", cell->name); /* Scan all library references */ g_list_foreach(cell->child_cells, parse_reference_list, library); } void scan_library_references(gpointer library_list_item, gpointer user) { struct gds_library *lib = (struct gds_library *)library_list_item; printf("Scanning Library: %s\n", lib->name); g_list_foreach(lib->cells, scan_cell_reference_dependencies, lib); } int parse_gds_from_file(const char *filename, GList **library_list) { char workbuff[1024]; int read; int i; int run = 1; FILE *gds_file = NULL; uint16_t rec_data_length; enum record rec_type; struct gds_library *current_lib = NULL; struct gds_cell *current_cell = NULL; struct gds_graphics *current_graphics = NULL; struct gds_cell_instance *current_s_reference = NULL; int x, y; //////////// GList *lib_list; lib_list = *library_list; /* open File */ gds_file = fopen(filename, "r"); if (gds_file == NULL) { GDS_ERROR("Could not open File %s", filename); return -1; } /* Record parser */ while (run == 1) { rec_type = INVALID; read = fread(workbuff, sizeof(char), 2, gds_file); if (read != 2 && (current_cell != NULL || current_graphics != NULL || current_lib != NULL || current_s_reference != NULL)) { GDS_ERROR("End of File. with openend structs/libs"); run = -2; break; } else if (read != 2) { /* EOF */ run = 0; break; } rec_data_length = (uint16_t)((((uint16_t)(workbuff[0])) << 8) | (uint16_t)(workbuff[1])); if (rec_data_length < 4) { /* Possible Zero-Padding: */ run = 0; GDS_WARN("Zero Padding detected!"); if (current_cell != NULL || current_graphics != NULL || current_lib != NULL || current_s_reference != NULL) { GDS_ERROR("Not all structures closed"); run = -2; } break; } rec_data_length -= 4; read = fread(workbuff, sizeof(char), 2, gds_file); if (read != 2) { run = -2; GDS_ERROR("Unexpected end of file"); break; } rec_type = (uint16_t)((((uint16_t)(workbuff[0])) << 8) | (uint16_t)(workbuff[1])); /* if begin: Allocate structures */ switch (rec_type) { case BGNLIB: lib_list = append_library(lib_list); if (lib_list == NULL) { GDS_ERROR("Allocating memory failed"); run = -3; break; } printf("Entering Lib\n"); current_lib = (struct gds_library *) g_list_last(lib_list)->data; break; case ENDLIB: if (current_lib == NULL) { run = -4; GDS_ERROR("Closing Library with no opened library"); break; } /* Check for open Cells */ if (current_cell != NULL) { run = -4; GDS_ERROR("Closing Library with opened cells"); break; } current_lib = NULL; printf("Leaving Library\n"); break; case BGNSTR: current_lib->cells = append_cell(current_lib->cells, ¤t_cell); if (current_lib->cells == NULL) { GDS_ERROR("Allocating memory failed"); run = -3; break; } printf("Entering Cell\n"); break; case ENDSTR: if (current_cell == NULL) { run = -4; GDS_ERROR("Closing cell with no opened cell"); break; } /* Check for open Elements */ if (current_graphics != NULL || current_s_reference != NULL) { run = -4; GDS_ERROR("Closing cell with opened Elements"); break; } current_cell = NULL; printf("Leaving Cell\n"); break; //case BOX: case BOUNDARY: if (current_cell == NULL) { GDS_ERROR("Boundary outside of cell"); run = -3; break; } current_cell->graphic_objs = append_graphics(current_cell->graphic_objs, GRAPHIC_POLYGON, ¤t_graphics); if (current_cell->graphic_objs == NULL) { GDS_ERROR("Memory allocation failed"); run = -4; break; } printf("\tEntering boundary\n"); break; case SREF: if (current_cell == NULL) { GDS_ERROR("Path outside of cell"); run = -3; break; } current_cell->child_cells = append_cell_ref(current_cell->child_cells, ¤t_s_reference); if (current_cell->child_cells == NULL) { GDS_ERROR("Memory allocation failed"); run = -4; break; } printf("\tEntering reference\n"); break; case PATH: if (current_cell == NULL) { GDS_ERROR("Path outside of cell"); run = -3; break; } current_cell->graphic_objs = append_graphics(current_cell->graphic_objs, GRAPHIC_PATH, ¤t_graphics); if (current_cell->graphic_objs == NULL) { GDS_ERROR("Memory allocation failed"); run = -4; break; } printf("\tEntering Path\n"); break; case ENDEL: if (current_graphics != NULL) { printf("\tLeaving %s\n", (current_graphics->type == GRAPHIC_POLYGON ? "boundary" : "path")); current_graphics = NULL; } if (current_s_reference != NULL) { printf("\tLeaving Reference\n"); current_s_reference = NULL; } break; case XY: if (current_graphics) { } else if (current_s_reference) { if (rec_data_length != 8) { GDS_WARN("Instance has weird coordinates. Rendered output might be screwed!"); } } break; case MAG: break; case ANGLE: break; case STRANS: break; default: //GDS_WARN("Record: %04x, len: %u", (unsigned int)rec_type, (unsigned int)rec_data_length); break; } /* switch(rec_type) */ /* No Data -> No Processing, go back to top */ if (!rec_data_length) continue; read = fread(workbuff, sizeof(char), rec_data_length, gds_file); if (read != rec_data_length) { GDS_ERROR("Could not read enough data"); run = -5; break; } switch (rec_type) { case LIBNAME: name_library(current_lib, read, workbuff); break; case STRNAME: name_cell(current_cell, read, workbuff, current_lib); break; case XY: if (current_s_reference) { /* Get origin of reference */ current_s_reference->origin.x = gds_convert_signed_int(workbuff); current_s_reference->origin.y = gds_convert_signed_int(&workbuff[4]); printf("\t\tSet origin to: %d/%d\n", current_s_reference->origin.x, current_s_reference->origin.y); } else if (current_graphics) { for (i = 0; i < read/8; i++) { x = gds_convert_signed_int(&workbuff[i*8]); y = gds_convert_signed_int(&workbuff[i*8+4]); current_graphics->vertices = append_vertex(current_graphics->vertices, x, y); printf("\t\tSet coordinate: %d/%d\n", x, y); } } break; case STRANS: if (!current_s_reference) { GDS_ERROR("Transformation defined outside of instance"); break; } current_s_reference->flipped = ((workbuff[0] & 0x80) ? 1 : 0); break; case SNAME: name_cell_ref(current_s_reference, read, workbuff); break; case LAYER: if (!current_graphics) { GDS_WARN("Layer has to be defined inside graphics object. Probably unknown object. Implement it yourself!"); break; } current_graphics->layer = gds_convert_signed_int16(workbuff); if (current_graphics->layer < 0) { GDS_WARN("Layer negative!\n"); } printf("\t\tAdded layer %d\n", (int)current_graphics->layer); break; case MAG: if (rec_data_length != 8) { GDS_WARN("Magnification is not an 8 byte real. Results may be wrong"); } if (current_graphics != NULL && current_s_reference != NULL) { GDS_ERROR("Open Graphics and Cell Reference\n\tMissing ENDEL?"); run = -6; break; } if (current_s_reference != NULL) { current_s_reference->magnification = gds_convert_double(workbuff); printf("\t\tMagnification defined: %lf\n", current_s_reference->magnification); } break; case ANGLE: if (rec_data_length != 8) { GDS_WARN("Angle is not an 8 byte real. Results may be wrong"); } if (current_graphics != NULL && current_s_reference != NULL) { GDS_ERROR("Open Graphics and Cell Reference\n\tMissing ENDEL?"); run = -6; break; } if (current_s_reference != NULL) { current_s_reference->angle = gds_convert_double(workbuff); printf("\t\tAngle defined: %lf\n", current_s_reference->angle); } break; } } /* while(run == 1) */ fclose(gds_file); /* Iterate and find references to cells */ g_list_foreach(lib_list, scan_library_references, NULL); *library_list = lib_list; return run; } static void delete_cell_inst_element(struct gds_cell_instance *cell_inst) { free(cell_inst); } static void delete_vertex(struct gds_point *vertex) { free(vertex); } static void delete_graphics_obj(struct gds_graphics *gfx) { g_list_free_full(gfx->vertices, (GDestroyNotify)delete_vertex); free(gfx); } static void delete_cell_element(struct gds_cell *cell) { g_list_free_full(cell->child_cells, (GDestroyNotify)delete_cell_inst_element); g_list_free_full(cell->graphic_objs, (GDestroyNotify)delete_graphics_obj); free(cell); } static void delete_library_element(struct gds_library *lib) { g_list_free(lib->cell_names); g_list_free_full(lib->cells, (GDestroyNotify)delete_cell_element); free(lib); } int clear_lib_list(GList **library_list) { if (*library_list == NULL) return 0; g_list_free_full(*library_list, (GDestroyNotify)delete_library_element); *library_list = NULL; return 0; }