/* ************************************************************************* * Compute the max operator stencil width from all constructed * refine and coarsen operators and the user-specified minimum value. ************************************************************************* */ IntVector TransferOperatorRegistry::getMaxTransferOpStencilWidth(const tbox::Dimension& dim) { IntVector max_width(dim, 0); if (d_min_stencil_width.getDim() == dim) { max_width.max(d_min_stencil_width); } max_width.max(RefineOperator::getMaxRefineOpStencilWidth(dim)); max_width.max(CoarsenOperator::getMaxCoarsenOpStencilWidth(dim)); d_max_op_stencil_width_req = true; return max_width; }
static WInfoWin *setup_moveres_display(WWindow *parent, int cx, int cy) { GrBorderWidths bdw; GrFontExtents fnte; WInfoWin *infowin; WFitParams fp; fp.mode=REGION_FIT_EXACT; fp.g.x=0; fp.g.y=0; fp.g.w=1; fp.g.h=1; infowin=create_infowin(parent, &fp, "moveres_display"); if(infowin==NULL) return NULL; grbrush_get_border_widths(INFOWIN_BRUSH(infowin), &bdw); grbrush_get_font_extents(INFOWIN_BRUSH(infowin), &fnte); /* Create move/resize position/size display window */ fp.g.w=3; fp.g.w+=chars_for_num(REGION_GEOM(parent).w); fp.g.w+=chars_for_num(REGION_GEOM(parent).h); fp.g.w*=max_width(INFOWIN_BRUSH(infowin), "0123456789x+"); fp.g.w+=bdw.left+bdw.right; fp.g.h=fnte.max_height+bdw.top+bdw.bottom;; fp.g.x=cx-fp.g.w/2; fp.g.y=cy-fp.g.h/2; region_fitrep((WRegion*)infowin, NULL, &fp); region_map((WRegion*)infowin); return infowin; }
void Command::dump_usage(std::ostream &out, bool show_hidden) const { std::stringstream ss; out << std::endl; ss << get_name() << " - "; dump_short_description(ss, show_hidden); indented_dump(ss.str(), out); out << std::endl << std::endl; ss.str(""); dump_section(out, "Synopsis", show_hidden); dump_synopsis(ss, show_hidden); indented_dump(ss.str(), out); out << std::endl; ss.str(""); dump_section(out, "Description", show_hidden); dump_full_description(ss, show_hidden); indented_dump(ss.str(), out); out << std::endl; ss.str(""); dump_output_section(ss, show_hidden); indented_dump(ss.str(), out); out << std::endl; dump_section(out, "Options", show_hidden); std::vector<std::string> str_opts; size_t max_width(0); for (CommandOptions::const_iterator it = _options.begin(); it != _options.end(); ++it) { if (show_hidden == false && it->second->is_hidden()) continue; std::stringstream ss; std::string short_opt("-"); short_opt.append(1, it->second->get_short_opt()); std::string long_opt("--"); long_opt.append(it->second->get_long_opt()); ss << " "; ss << Boldify(short_opt) << ", " << Boldify(long_opt); if (it->second->is_arg_expected()) ss << " " << it->second->get_arg_name(); str_opts.push_back(ss.str()); size_t real_size = Get_real_string_size(ss.str()); if (real_size > max_width) max_width = real_size; } size_t i(0); for (CommandOptions::const_iterator it = _options.begin(); it != _options.end(); ++it) { if (show_hidden == false && it->second->is_hidden()) continue; indented_dump(str_opts.at(i), out, 0, max_width + 2, true, true); std::stringstream ss; ss << it->second->get_description(); if (it->second->is_arg_expected() && it->second->is_mandatory() == false && it->second->get_default_value().empty() == false) ss << std::endl << "Default is '" << it->second->get_default_value() << "'."; indented_dump(ss.str(), out, max_width + 2, Get_tty_cols(), false, false); out << std::endl; ++i; } out << std::endl; dump_section(out, "Examples", show_hidden); ss.str(""); dump_examples(ss, show_hidden); indented_dump(ss.str(), out); out << std::endl; if (_see_also.empty() == false) { dump_section(out, "See also", show_hidden); ss.str(""); dump_see_also(ss, show_hidden); indented_dump(ss.str(), out); out << std::endl; out << std::endl; } dump_section(out, "Author", show_hidden); ss.str(""); ss << EXA_COPYRIGHT << std::endl; indented_dump(ss.str(), out); out << std::endl; }
int main(int argc, char *argv[]) { int e; build_image_context context; u_int32_t bootloaders_used; u_int32_t parameters_used; u_int32_t sdram_used; nvboot_dev_type type; u_int32_t data; int i; int j; if (argc != 2) usage(); memset(&context, 0, sizeof(build_image_context)); context.bct_filename = argv[1]; e = read_bct_file(&context); if (e != 0) return e; /* Display root values */ for (i = 0; i < sizeof(values) / sizeof(values[0]); ++i) { e = g_soc_config->get_value(values[i].id, &data, context.bct); if (e != 0) data = -1; else if (values[i].id == token_block_size_log2 || values[i].id == token_page_size_log2) data = 1 << data; printf(values[i].message, data); } /* Display bootloader values */ e = g_soc_config->get_value(token_bootloader_used, &bootloaders_used, context.bct); if ((e == 0) && (bootloaders_used > 0)) { int bl_count = sizeof(bl_values) / sizeof(bl_values[0]); printf("#\n" "# These values are set by cbootimage using the\n" "# bootloader provided by the Bootloader=...\n" "# configuration option.\n" "#\n"); for (i = 0; i < bootloaders_used; ++i) { for (j = 0; j < bl_count; ++j) { e = g_soc_config->getbl_param(i, bl_values[j].id, &data, context.bct); printf("# Bootloader[%d].", i); if (e != 0) data = -1; printf(bl_values[j].message, data); } } } /* Display flash device parameters */ e = g_soc_config->get_value(token_num_param_sets, ¶meters_used, context.bct); for (i = 0; (e == 0) && (i < parameters_used); ++i) { field_item const * device_field_table = NULL; char const * prefix = NULL; field_item const * item; e = g_soc_config->get_dev_param(&context, i, token_dev_type, &type); printf("\n" "DevType[%d] = ", i); display_enum_value(&context, g_soc_config->devtype_table, type); printf(";\n"); switch (type) { case nvboot_dev_type_spi: device_field_table = g_soc_config->spiflash_table; prefix = "SpiFlashParams"; break; case nvboot_dev_type_sdmmc: device_field_table = g_soc_config->sdmmc_table; prefix = "SdmmcParams"; break; case nvboot_dev_type_nand: device_field_table = g_soc_config->nand_table; prefix = "NandParams"; break; default: device_field_table = NULL; prefix = ""; break; } if (!device_field_table) continue; int width = max_width(device_field_table); for (item = device_field_table; item->name != NULL; ++item) { g_soc_config->get_dev_param(&context, i, item->token, &data); printf("DeviceParam[%d].%s.%-*s = ", i, prefix, width, item->name); if (e != 0) printf("<ERROR reading parameter (%d)>", e); else display_field_value(&context, item, data); printf(";\n"); } } /* Display SDRAM parameters */ e = g_soc_config->get_value(token_num_sdram_sets, &sdram_used, context.bct); for (i = 0; (e == 0) && (i < sdram_used); ++i) { field_item const *item; printf("\n"); int width = max_width(g_soc_config->sdram_field_table); for (item = g_soc_config->sdram_field_table; item->name != NULL; ++item) { e = g_soc_config->get_sdram_param(&context, i, item->token, &data); printf("SDRAM[%d].%-*s = ", i, width, item->name); if (e != 0) printf("<ERROR reading parameter (%d)>", e); else display_field_value(&context, item, data); printf(";\n"); } } /* Clean up memory. */ cleanup_context(&context); return e; }