/* htop - Header.c (C) 2004-2011 Hisham H. Muhammad Released under the GNU GPLv2+, see the COPYING file in the source distribution for its full text. */ #include "Header.h" #include #include #include #include #include #include #include #include "CRT.h" #include "CPUMeter.h" #include "DynamicMeter.h" #include "Macros.h" #include "Object.h" #include "Platform.h" #include "ProvideCurses.h" #include "XUtils.h" Header* Header_new(ProcessList* pl, Settings* settings, HeaderLayout hLayout) { Header* this = xCalloc(1, sizeof(Header)); this->columns = xMallocArray(HeaderLayout_getColumns(hLayout), sizeof(Vector*)); this->settings = settings; this->pl = pl; this->headerLayout = hLayout; Header_forEachColumn(this, i) { this->columns[i] = Vector_new(Class(Meter), true, DEFAULT_SIZE); } return this; } void Header_delete(Header* this) { Header_forEachColumn(this, i) { Vector_delete(this->columns[i]); } free(this->columns); free(this); } void Header_setLayout(Header* this, HeaderLayout hLayout) { size_t oldColumns = HeaderLayout_getColumns(this->headerLayout); size_t newColumns = HeaderLayout_getColumns(hLayout); this->headerLayout = hLayout; if (newColumns == oldColumns) return; if (newColumns > oldColumns) { this->columns = xReallocArray(this->columns, newColumns, sizeof(Vector*)); for (size_t i = oldColumns; i < newColumns; i++) this->columns[i] = Vector_new(Class(Meter), true, DEFAULT_SIZE); } else { // move meters from to-be-deleted columns into last one for (size_t i = newColumns; i < oldColumns; i++) { for (int j = this->columns[i]->items - 1; j >= 0; j--) { Vector_add(this->columns[newColumns - 1], Vector_take(this->columns[i], j)); } Vector_delete(this->columns[i]); } this->columns = xReallocArray(this->columns, newColumns, sizeof(Vector*)); } Header_calculateHeight(this); } static void Header_addMeterByName(Header* this, const char* name, MeterModeId mode, unsigned int column) { assert(column < HeaderLayout_getColumns(this->headerLayout)); Vector* meters = this->columns[column]; const char* paren = strchr(name, '('); unsigned int param = 0; size_t nameLen; if (paren) { int ok = sscanf(paren, "(%10u)", ¶m); // CPUMeter if (!ok) { char dynamic[32] = {0}; if (sscanf(paren, "(%30s)", dynamic)) { // DynamicMeter char* end; if ((end = strrchr(dynamic, ')')) == NULL) return; // htoprc parse failure *end = '\0'; if (!DynamicMeter_search(this->pl->dynamicMeters, dynamic, ¶m)) return; // name lookup failure } else { param = 0; } } nameLen = paren - name; } else { nameLen = strlen(name); } for (const MeterClass* const* type = Platform_meterTypes; *type; type++) { if (0 == strncmp(name, (*type)->name, nameLen) && (*type)->name[nameLen] == '\0') { Meter* meter = Meter_new(this->pl, param, *type); if (mode != 0) { Meter_setMode(meter, mode); } Vector_add(meters, meter); break; } } } void Header_populateFromSettings(Header* this) { Header_setLayout(this, this->settings->hLayout); Header_forEachColumn(this, col) { const MeterColumnSetting* colSettings = &this->settings->hColumns[col]; Vector_prune(this->columns[col]); for (size_t i = 0; i < colSettings->len; i++) { Header_addMeterByName(this, colSettings->names[i], colSettings->modes[i], col); } } Header_calculateHeight(this); } void Header_writeBackToSettings(const Header* this) { Settings_setHeaderLayout(this->settings, this->headerLayout); Header_forEachColumn(this, col) { MeterColumnSetting* colSettings = &this->settings->hColumns[col]; if (colSettings->names) { for (size_t j = 0; j < colSettings->len; j++) free(colSettings->names[j]); free(colSettings->names); } free(colSettings->modes); const Vector* vec = this->columns[col]; int len = Vector_size(vec); colSettings->names = len ? xCalloc(len + 1, sizeof(char*)) : NULL; colSettings->modes = len ? xCalloc(len, sizeof(int)) : NULL; colSettings->len = len; for (int i = 0; i < len; i++) { const Meter* meter = (Meter*) Vector_get(vec, i); char* name; if (meter->param && As_Meter(meter) == &DynamicMeter_class) { const char* dynamic = DynamicMeter_lookup(this->pl->dynamicMeters, meter->param); xAsprintf(&name, "%s(%s)", As_Meter(meter)->name, dynamic); } else if (meter->param && As_Meter(meter) == &CPUMeter_class) { xAsprintf(&name, "%s(%u)", As_Meter(meter)->name, meter->param); } else { xAsprintf(&name, "%s", As_Meter(meter)->name); } colSettings->names[i] = name; colSettings->modes[i] = meter->mode; } } } Meter* Header_addMeterByClass(Header* this, const MeterClass* type, unsigned int param, unsigned int column) { assert(column < HeaderLayout_getColumns(this->headerLayout)); Vector* meters = this->columns[column]; Meter* meter = Meter_new(this->pl, param, type); Vector_add(meters, meter); return meter; } void Header_reinit(Header* this) { Header_forEachColumn(this, col) { for (int i = 0; i < Vector_size(this->columns[col]); i++) { Meter* meter = (Meter*) Vector_get(this->columns[col], i); if (Meter_initFn(meter)) { Meter_init(meter); } } } } void Header_draw(const Header* this) { const int height = this->height; const int pad = this->pad; attrset(CRT_colors[RESET_COLOR]); for (int y = 0; y < height; y++) { mvhline(y, 0, ' ', COLS); } const int numCols = HeaderLayout_getColumns(this->headerLayout); const int width = COLS - 2 * pad - (numCols - 1); int x = pad; float roundingLoss = 0.0F; Header_forEachColumn(this, col) { Vector* meters = this->columns[col]; float colWidth = (float)width * HeaderLayout_layouts[this->headerLayout].widths[col] / 100.0F; roundingLoss += colWidth - floorf(colWidth); if (roundingLoss >= 1.0F) { colWidth += 1.0F; roundingLoss -= 1.0F; } for (int y = (pad / 2), i = 0; i < Vector_size(meters); i++) { Meter* meter = (Meter*) Vector_get(meters, i); float actualWidth = colWidth; /* Let meters in text mode expand to the right on empty neighbors; except for multi column meters. */ if (meter->mode == TEXT_METERMODE && !Meter_isMultiColumn(meter)) { for (int j = 1; j < meter->columnWidthCount; j++) { actualWidth++; /* separator column */ actualWidth += (float)width * HeaderLayout_layouts[this->headerLayout].widths[col + j] / 100.0F; } } assert(meter->draw); meter->draw(meter, x, y, floorf(actualWidth)); y += meter->h; } x += floorf(colWidth); x++; /* separator column */ } } void Header_updateData(Header* this) { Header_forEachColumn(this, col) { Vector* meters = this->columns[col]; int items = Vector_size(meters); for (int i = 0; i < items; i++) { Meter* meter = (Meter*) Vector_get(meters, i); Meter_updateValues(meter); } } } /* * Calculate how many columns the current meter is allowed to span, * by counting how many columns to the right are empty or contain a BlankMeter. * Returns the number of columns to span, i.e. if the direct neighbor is occupied 1. */ static int calcColumnWidthCount(const Header* this, const Meter* curMeter, const int pad, const unsigned int curColumn, const int curHeight) { for (size_t i = curColumn + 1; i < HeaderLayout_getColumns(this->headerLayout); i++) { const Vector* meters = this->columns[i]; int height = pad; for (int j = 0; j < Vector_size(meters); j++) { const Meter* meter = (const Meter*) Vector_get(meters, j); if (height >= curHeight + curMeter->h) break; height += meter->h; if (height <= curHeight) continue; if (!Object_isA((const Object*) meter, (const ObjectClass*) &BlankMeter_class)) return i - curColumn; } } return HeaderLayout_getColumns(this->headerLayout) - curColumn; } int Header_calculateHeight(Header* this) { const int pad = this->settings->headerMargin ? 2 : 0; int maxHeight = pad; Header_forEachColumn(this, col) { const Vector* meters = this->columns[col]; int height = pad; for (int i = 0; i < Vector_size(meters); i++) { Meter* meter = (Meter*) Vector_get(meters, i); meter->columnWidthCount = calcColumnWidthCount(this, meter, pad, col, height); height += meter->h; } maxHeight = MAXIMUM(maxHeight, height); } if (this->settings->screenTabs) { maxHeight++; } this->height = maxHeight; this->pad = pad; return maxHeight; }