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[/] [or1k/] [trunk/] [gdb-5.3/] [gdb/] [tui/] [tuiRegs.c] - Rev 1765
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/* TUI display registers in window. Copyright 1998, 1999, 2000, 2001, 2002 Free Software Foundation, Inc. Contributed by Hewlett-Packard Company. This file is part of GDB. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* FIXME: cagney/2002-02-28: The GDB coding standard indicates that "defs.h" should be included first. Unfortunatly some systems (currently Debian GNU/Linux) include the <stdbool.h> via <curses.h> and they clash with "bfd.h"'s definiton of true/false. The correct fix is to remove true/false from "bfd.h", however, until that happens, hack around it by including "config.h" and <curses.h> first. */ #include "config.h" #ifdef HAVE_NCURSES_H #include <ncurses.h> #else #ifdef HAVE_CURSES_H #include <curses.h> #endif #endif #include "defs.h" #include "tui.h" #include "tuiData.h" #include "symtab.h" #include "gdbtypes.h" #include "gdbcmd.h" #include "frame.h" #include "regcache.h" #include "inferior.h" #include "target.h" #include "tuiLayout.h" #include "tuiWin.h" #include "tuiDataWin.h" #include "tuiGeneralWin.h" #include "tui-file.h" /***************************************** ** LOCAL DEFINITIONS ** ******************************************/ #define DOUBLE_FLOAT_LABEL_WIDTH 6 #define DOUBLE_FLOAT_LABEL_FMT "%6.6s: " #define DOUBLE_FLOAT_VALUE_WIDTH 30 /*min of 16 but may be in sci notation */ #define SINGLE_FLOAT_LABEL_WIDTH 6 #define SINGLE_FLOAT_LABEL_FMT "%6.6s: " #define SINGLE_FLOAT_VALUE_WIDTH 25 /* min of 8 but may be in sci notation */ #define SINGLE_LABEL_WIDTH 16 #define SINGLE_LABEL_FMT "%10.10s: " #define SINGLE_VALUE_WIDTH 20 /* minimum of 8 but may be in sci notation */ /* In the code HP gave Cygnus, this was actually a function call to a PA-specific function, which was supposed to determine whether the target was a 64-bit or 32-bit processor. However, the 64-bit support wasn't complete, so we didn't merge that in, so we leave this here as a stub. */ #define IS_64BIT 0 /***************************************** ** STATIC DATA ** ******************************************/ /***************************************** ** STATIC LOCAL FUNCTIONS FORWARD DECLS ** ******************************************/ static TuiStatus _tuiSetRegsContent (int, int, struct frame_info *, TuiRegisterDisplayType, int); static const char *_tuiRegisterName (int); static TuiStatus _tuiGetRegisterRawValue (int, char *, struct frame_info *); static void _tuiSetRegisterElement (int, struct frame_info *, TuiDataElementPtr, int); static void _tuiDisplayRegister (int, TuiGenWinInfoPtr, enum precision_type); static void _tuiRegisterFormat (char *, int, int, TuiDataElementPtr, enum precision_type); static TuiStatus _tuiSetGeneralRegsContent (int); static TuiStatus _tuiSetSpecialRegsContent (int); static TuiStatus _tuiSetGeneralAndSpecialRegsContent (int); static TuiStatus _tuiSetFloatRegsContent (TuiRegisterDisplayType, int); static int _tuiRegValueHasChanged (TuiDataElementPtr, struct frame_info *, char *); static void _tuiShowFloat_command (char *, int); static void _tuiShowGeneral_command (char *, int); static void _tuiShowSpecial_command (char *, int); static void _tui_vShowRegisters_commandSupport (TuiRegisterDisplayType); static void _tuiToggleFloatRegs_command (char *, int); static void _tuiScrollRegsForward_command (char *, int); static void _tuiScrollRegsBackward_command (char *, int); /***************************************** ** PUBLIC FUNCTIONS ** ******************************************/ /* ** tuiLastRegsLineNo() ** Answer the number of the last line in the regs display. ** If there are no registers (-1) is returned. */ int tuiLastRegsLineNo (void) { register int numLines = (-1); if (dataWin->detail.dataDisplayInfo.regsContentCount > 0) { numLines = (dataWin->detail.dataDisplayInfo.regsContentCount / dataWin->detail.dataDisplayInfo.regsColumnCount); if (dataWin->detail.dataDisplayInfo.regsContentCount % dataWin->detail.dataDisplayInfo.regsColumnCount) numLines++; } return numLines; } /* tuiLastRegsLineNo */ /* ** tuiLineFromRegElementNo() ** Answer the line number that the register element at elementNo is ** on. If elementNo is greater than the number of register elements ** there are, -1 is returned. */ int tuiLineFromRegElementNo (int elementNo) { if (elementNo < dataWin->detail.dataDisplayInfo.regsContentCount) { int i, line = (-1); i = 1; while (line == (-1)) { if (elementNo < (dataWin->detail.dataDisplayInfo.regsColumnCount * i)) line = i - 1; else i++; } return line; } else return (-1); } /* tuiLineFromRegElementNo */ /* ** tuiFirstRegElementNoInLine() ** Answer the index of the first element in lineNo. If lineNo is ** past the register area (-1) is returned. */ int tuiFirstRegElementNoInLine (int lineNo) { if ((lineNo * dataWin->detail.dataDisplayInfo.regsColumnCount) <= dataWin->detail.dataDisplayInfo.regsContentCount) return ((lineNo + 1) * dataWin->detail.dataDisplayInfo.regsColumnCount) - dataWin->detail.dataDisplayInfo.regsColumnCount; else return (-1); } /* tuiFirstRegElementNoInLine */ /* ** tuiLastRegElementNoInLine() ** Answer the index of the last element in lineNo. If lineNo is past ** the register area (-1) is returned. */ int tuiLastRegElementNoInLine (int lineNo) { if ((lineNo * dataWin->detail.dataDisplayInfo.regsColumnCount) <= dataWin->detail.dataDisplayInfo.regsContentCount) return ((lineNo + 1) * dataWin->detail.dataDisplayInfo.regsColumnCount) - 1; else return (-1); } /* tuiLastRegElementNoInLine */ /* ** tuiCalculateRegsColumnCount ** Calculate the number of columns that should be used to display ** the registers. */ int tuiCalculateRegsColumnCount (TuiRegisterDisplayType dpyType) { int colCount, colWidth; if (IS_64BIT || dpyType == TUI_DFLOAT_REGS) colWidth = DOUBLE_FLOAT_VALUE_WIDTH + DOUBLE_FLOAT_LABEL_WIDTH; else { if (dpyType == TUI_SFLOAT_REGS) colWidth = SINGLE_FLOAT_VALUE_WIDTH + SINGLE_FLOAT_LABEL_WIDTH; else colWidth = SINGLE_VALUE_WIDTH + SINGLE_LABEL_WIDTH; } colCount = (dataWin->generic.width - 2) / colWidth; return colCount; } /* tuiCalulateRegsColumnCount */ /* ** tuiShowRegisters(). ** Show the registers int the data window as indicated by dpyType. ** If there is any other registers being displayed, then they are ** cleared. What registers are displayed is dependent upon dpyType. */ void tuiShowRegisters (TuiRegisterDisplayType dpyType) { TuiStatus ret = TUI_FAILURE; int refreshValuesOnly = FALSE; /* Say that registers should be displayed, even if there is a problem */ dataWin->detail.dataDisplayInfo.displayRegs = TRUE; if (target_has_registers) { refreshValuesOnly = (dpyType == dataWin->detail.dataDisplayInfo.regsDisplayType); switch (dpyType) { case TUI_GENERAL_REGS: ret = _tuiSetGeneralRegsContent (refreshValuesOnly); break; case TUI_SFLOAT_REGS: case TUI_DFLOAT_REGS: ret = _tuiSetFloatRegsContent (dpyType, refreshValuesOnly); break; /* could ifdef out */ case TUI_SPECIAL_REGS: ret = _tuiSetSpecialRegsContent (refreshValuesOnly); break; case TUI_GENERAL_AND_SPECIAL_REGS: ret = _tuiSetGeneralAndSpecialRegsContent (refreshValuesOnly); break; /* end of potential if def */ default: break; } } if (ret == TUI_FAILURE) { dataWin->detail.dataDisplayInfo.regsDisplayType = TUI_UNDEFINED_REGS; tuiEraseDataContent (NO_REGS_STRING); } else { int i; /* Clear all notation of changed values */ for (i = 0; (i < dataWin->detail.dataDisplayInfo.regsContentCount); i++) { TuiGenWinInfoPtr dataItemWin; dataItemWin = &dataWin->detail.dataDisplayInfo. regsContent[i]->whichElement.dataWindow; (&((TuiWinElementPtr) dataItemWin->content[0])->whichElement.data)->highlight = FALSE; } dataWin->detail.dataDisplayInfo.regsDisplayType = dpyType; tuiDisplayAllData (); } (tuiLayoutDef ())->regsDisplayType = dpyType; return; } /* tuiShowRegisters */ /* ** tuiDisplayRegistersFrom(). ** Function to display the registers in the content from ** 'startElementNo' until the end of the register content or the ** end of the display height. No checking for displaying past ** the end of the registers is done here. */ void tuiDisplayRegistersFrom (int startElementNo) { if (dataWin->detail.dataDisplayInfo.regsContent != (TuiWinContent) NULL && dataWin->detail.dataDisplayInfo.regsContentCount > 0) { register int i = startElementNo; int j, valueCharsWide, itemWinWidth, curY, labelWidth; enum precision_type precision; precision = (dataWin->detail.dataDisplayInfo.regsDisplayType == TUI_DFLOAT_REGS) ? double_precision : unspecified_precision; if (IS_64BIT || dataWin->detail.dataDisplayInfo.regsDisplayType == TUI_DFLOAT_REGS) { valueCharsWide = DOUBLE_FLOAT_VALUE_WIDTH; labelWidth = DOUBLE_FLOAT_LABEL_WIDTH; } else { if (dataWin->detail.dataDisplayInfo.regsDisplayType == TUI_SFLOAT_REGS) { valueCharsWide = SINGLE_FLOAT_VALUE_WIDTH; labelWidth = SINGLE_FLOAT_LABEL_WIDTH; } else { valueCharsWide = SINGLE_VALUE_WIDTH; labelWidth = SINGLE_LABEL_WIDTH; } } itemWinWidth = valueCharsWide + labelWidth; /* ** Now create each data "sub" window, and write the display into it. */ curY = 1; while (i < dataWin->detail.dataDisplayInfo.regsContentCount && curY <= dataWin->generic.viewportHeight) { for (j = 0; (j < dataWin->detail.dataDisplayInfo.regsColumnCount && i < dataWin->detail.dataDisplayInfo.regsContentCount); j++) { TuiGenWinInfoPtr dataItemWin; TuiDataElementPtr dataElementPtr; /* create the window if necessary */ dataItemWin = &dataWin->detail.dataDisplayInfo. regsContent[i]->whichElement.dataWindow; dataElementPtr = &((TuiWinElementPtr) dataItemWin->content[0])->whichElement.data; if (dataItemWin->handle == (WINDOW *) NULL) { dataItemWin->height = 1; dataItemWin->width = (precision == double_precision) ? itemWinWidth + 2 : itemWinWidth + 1; dataItemWin->origin.x = (itemWinWidth * j) + 1; dataItemWin->origin.y = curY; makeWindow (dataItemWin, DONT_BOX_WINDOW); scrollok (dataItemWin->handle, FALSE); } touchwin (dataItemWin->handle); /* ** Get the printable representation of the register ** and display it */ _tuiDisplayRegister ( dataElementPtr->itemNo, dataItemWin, precision); i++; /* next register */ } curY++; /* next row; */ } } return; } /* tuiDisplayRegistersFrom */ /* ** tuiDisplayRegElementAtLine(). ** Function to display the registers in the content from ** 'startElementNo' on 'startLineNo' until the end of the ** register content or the end of the display height. ** This function checks that we won't display off the end ** of the register display. */ void tuiDisplayRegElementAtLine (int startElementNo, int startLineNo) { if (dataWin->detail.dataDisplayInfo.regsContent != (TuiWinContent) NULL && dataWin->detail.dataDisplayInfo.regsContentCount > 0) { register int elementNo = startElementNo; if (startElementNo != 0 && startLineNo != 0) { register int lastLineNo, firstLineOnLastPage; lastLineNo = tuiLastRegsLineNo (); firstLineOnLastPage = lastLineNo - (dataWin->generic.height - 2); if (firstLineOnLastPage < 0) firstLineOnLastPage = 0; /* ** If there is no other data displayed except registers, ** and the elementNo causes us to scroll past the end of the ** registers, adjust what element to really start the display at. */ if (dataWin->detail.dataDisplayInfo.dataContentCount <= 0 && startLineNo > firstLineOnLastPage) elementNo = tuiFirstRegElementNoInLine (firstLineOnLastPage); } tuiDisplayRegistersFrom (elementNo); } return; } /* tuiDisplayRegElementAtLine */ /* ** tuiDisplayRegistersFromLine(). ** Function to display the registers starting at line lineNo in ** the data window. Answers the line number that the display ** actually started from. If nothing is displayed (-1) is returned. */ int tuiDisplayRegistersFromLine (int lineNo, int forceDisplay) { if (dataWin->detail.dataDisplayInfo.regsContentCount > 0) { int line, elementNo; if (lineNo < 0) line = 0; else if (forceDisplay) { /* ** If we must display regs (forceDisplay is true), then make ** sure that we don't display off the end of the registers. */ if (lineNo >= tuiLastRegsLineNo ()) { if ((line = tuiLineFromRegElementNo ( dataWin->detail.dataDisplayInfo.regsContentCount - 1)) < 0) line = 0; } else line = lineNo; } else line = lineNo; elementNo = tuiFirstRegElementNoInLine (line); if (elementNo < dataWin->detail.dataDisplayInfo.regsContentCount) tuiDisplayRegElementAtLine (elementNo, line); else line = (-1); return line; } return (-1); /* nothing was displayed */ } /* tuiDisplayRegistersFromLine */ /* ** tuiCheckRegisterValues() ** This function check all displayed registers for changes in ** values, given a particular frame. If the values have changed, ** they are updated with the new value and highlighted. */ void tuiCheckRegisterValues (struct frame_info *frame) { if (m_winPtrNotNull (dataWin) && dataWin->generic.isVisible) { if (dataWin->detail.dataDisplayInfo.regsContentCount <= 0 && dataWin->detail.dataDisplayInfo.displayRegs) tuiShowRegisters ((tuiLayoutDef ())->regsDisplayType); else { int i, j; char rawBuf[MAX_REGISTER_RAW_SIZE]; for (i = 0; (i < dataWin->detail.dataDisplayInfo.regsContentCount); i++) { TuiDataElementPtr dataElementPtr; TuiGenWinInfoPtr dataItemWinPtr; int wasHilighted; dataItemWinPtr = &dataWin->detail.dataDisplayInfo. regsContent[i]->whichElement.dataWindow; dataElementPtr = &((TuiWinElementPtr) dataItemWinPtr->content[0])->whichElement.data; wasHilighted = dataElementPtr->highlight; dataElementPtr->highlight = _tuiRegValueHasChanged (dataElementPtr, frame, &rawBuf[0]); if (dataElementPtr->highlight) { int size; size = REGISTER_RAW_SIZE (dataElementPtr->itemNo); for (j = 0; j < size; j++) ((char *) dataElementPtr->value)[j] = rawBuf[j]; _tuiDisplayRegister ( dataElementPtr->itemNo, dataItemWinPtr, ((dataWin->detail.dataDisplayInfo.regsDisplayType == TUI_DFLOAT_REGS) ? double_precision : unspecified_precision)); } else if (wasHilighted) { dataElementPtr->highlight = FALSE; _tuiDisplayRegister ( dataElementPtr->itemNo, dataItemWinPtr, ((dataWin->detail.dataDisplayInfo.regsDisplayType == TUI_DFLOAT_REGS) ? double_precision : unspecified_precision)); } } } } return; } /* tuiCheckRegisterValues */ /* ** tuiToggleFloatRegs(). */ void tuiToggleFloatRegs (void) { TuiLayoutDefPtr layoutDef = tuiLayoutDef (); if (layoutDef->floatRegsDisplayType == TUI_SFLOAT_REGS) layoutDef->floatRegsDisplayType = TUI_DFLOAT_REGS; else layoutDef->floatRegsDisplayType = TUI_SFLOAT_REGS; if (m_winPtrNotNull (dataWin) && dataWin->generic.isVisible && (dataWin->detail.dataDisplayInfo.regsDisplayType == TUI_SFLOAT_REGS || dataWin->detail.dataDisplayInfo.regsDisplayType == TUI_DFLOAT_REGS)) tuiShowRegisters (layoutDef->floatRegsDisplayType); return; } /* tuiToggleFloatRegs */ void _initialize_tuiRegs (void) { if (xdb_commands) { add_com ("fr", class_tui, _tuiShowFloat_command, "Display only floating point registers\n"); add_com ("gr", class_tui, _tuiShowGeneral_command, "Display only general registers\n"); add_com ("sr", class_tui, _tuiShowSpecial_command, "Display only special registers\n"); add_com ("+r", class_tui, _tuiScrollRegsForward_command, "Scroll the registers window forward\n"); add_com ("-r", class_tui, _tuiScrollRegsBackward_command, "Scroll the register window backward\n"); add_com ("tf", class_tui, _tuiToggleFloatRegs_command, "Toggle between single and double precision floating point registers.\n"); add_cmd (TUI_FLOAT_REGS_NAME_LOWER, class_tui, _tuiToggleFloatRegs_command, "Toggle between single and double precision floating point \ registers.\n", &togglelist); } } /***************************************** ** STATIC LOCAL FUNCTIONS ** ******************************************/ /* ** _tuiRegisterName(). ** Return the register name. */ static const char * _tuiRegisterName (int regNum) { return REGISTER_NAME (regNum); } extern int pagination_enabled; static void tui_restore_gdbout (void *ui) { ui_file_delete (gdb_stdout); gdb_stdout = (struct ui_file*) ui; pagination_enabled = 1; } /* ** _tuiRegisterFormat ** Function to format the register name and value into a buffer, ** suitable for printing or display */ static void _tuiRegisterFormat (char *buf, int bufLen, int regNum, TuiDataElementPtr dataElement, enum precision_type precision) { struct ui_file *stream; struct ui_file *old_stdout; const char *name; struct cleanup *cleanups; char *p; int pos; name = REGISTER_NAME (regNum); if (name == 0) { strcpy (buf, ""); return; } pagination_enabled = 0; old_stdout = gdb_stdout; stream = tui_sfileopen (bufLen); gdb_stdout = stream; cleanups = make_cleanup (tui_restore_gdbout, (void*) old_stdout); gdbarch_print_registers_info (current_gdbarch, stream, selected_frame, regNum, 1); /* Save formatted output in the buffer. */ p = tui_file_get_strbuf (stream); pos = 0; while (*p && *p == *name++ && bufLen) { *buf++ = *p++; bufLen--; pos++; } while (*p == ' ') p++; while (pos < 8 && bufLen) { *buf++ = ' '; bufLen--; pos++; } strncpy (buf, p, bufLen); /* Remove the possible \n. */ p = strchr (buf, '\n'); if (p) *p = 0; do_cleanups (cleanups); } #define NUM_GENERAL_REGS 32 /* ** _tuiSetGeneralRegsContent(). ** Set the content of the data window to consist of the general registers. */ static TuiStatus _tuiSetGeneralRegsContent (int refreshValuesOnly) { return (_tuiSetRegsContent (0, NUM_GENERAL_REGS - 1, selected_frame, TUI_GENERAL_REGS, refreshValuesOnly)); } /* _tuiSetGeneralRegsContent */ #ifndef PCOQ_HEAD_REGNUM #define START_SPECIAL_REGS 0 #else #define START_SPECIAL_REGS PCOQ_HEAD_REGNUM #endif /* ** _tuiSetSpecialRegsContent(). ** Set the content of the data window to consist of the special registers. */ static TuiStatus _tuiSetSpecialRegsContent (int refreshValuesOnly) { TuiStatus ret = TUI_FAILURE; int endRegNum; endRegNum = FP0_REGNUM - 1; ret = _tuiSetRegsContent (START_SPECIAL_REGS, endRegNum, selected_frame, TUI_SPECIAL_REGS, refreshValuesOnly); return ret; } /* _tuiSetSpecialRegsContent */ /* ** _tuiSetGeneralAndSpecialRegsContent(). ** Set the content of the data window to consist of the special registers. */ static TuiStatus _tuiSetGeneralAndSpecialRegsContent (int refreshValuesOnly) { TuiStatus ret = TUI_FAILURE; int endRegNum = (-1); endRegNum = FP0_REGNUM - 1; ret = _tuiSetRegsContent ( 0, endRegNum, selected_frame, TUI_SPECIAL_REGS, refreshValuesOnly); return ret; } /* _tuiSetGeneralAndSpecialRegsContent */ /* ** _tuiSetFloatRegsContent(). ** Set the content of the data window to consist of the float registers. */ static TuiStatus _tuiSetFloatRegsContent (TuiRegisterDisplayType dpyType, int refreshValuesOnly) { TuiStatus ret = TUI_FAILURE; int startRegNum; startRegNum = FP0_REGNUM; ret = _tuiSetRegsContent (startRegNum, NUM_REGS - 1, selected_frame, dpyType, refreshValuesOnly); return ret; } /* _tuiSetFloatRegsContent */ /* ** _tuiRegValueHasChanged(). ** Answer TRUE if the register's value has changed, FALSE otherwise. ** If TRUE, newValue is filled in with the new value. */ static int _tuiRegValueHasChanged (TuiDataElementPtr dataElement, struct frame_info *frame, char *newValue) { int hasChanged = FALSE; if (dataElement->itemNo != UNDEFINED_ITEM && _tuiRegisterName (dataElement->itemNo) != (char *) NULL) { char rawBuf[MAX_REGISTER_RAW_SIZE]; int i; if (_tuiGetRegisterRawValue ( dataElement->itemNo, rawBuf, frame) == TUI_SUCCESS) { int size = REGISTER_RAW_SIZE (dataElement->itemNo); for (i = 0; (i < size && !hasChanged); i++) hasChanged = (((char *) dataElement->value)[i] != rawBuf[i]); if (hasChanged && newValue != (char *) NULL) { for (i = 0; i < size; i++) newValue[i] = rawBuf[i]; } } } return hasChanged; } /* _tuiRegValueHasChanged */ /* ** _tuiGetRegisterRawValue(). ** Get the register raw value. The raw value is returned in regValue. */ static TuiStatus _tuiGetRegisterRawValue (int regNum, char *regValue, struct frame_info *frame) { TuiStatus ret = TUI_FAILURE; if (target_has_registers) { int opt; get_saved_register (regValue, &opt, (CORE_ADDR*) NULL, frame, regNum, (enum lval_type*) NULL); if (register_cached (regNum) >= 0) ret = TUI_SUCCESS; } return ret; } /* _tuiGetRegisterRawValue */ /* ** _tuiSetRegisterElement(). ** Function to initialize a data element with the input and ** the register value. */ static void _tuiSetRegisterElement (int regNum, struct frame_info *frame, TuiDataElementPtr dataElement, int refreshValueOnly) { if (dataElement != (TuiDataElementPtr) NULL) { if (!refreshValueOnly) { dataElement->itemNo = regNum; dataElement->name = _tuiRegisterName (regNum); dataElement->highlight = FALSE; } if (dataElement->value == (Opaque) NULL) dataElement->value = (Opaque) xmalloc (MAX_REGISTER_RAW_SIZE); if (dataElement->value != (Opaque) NULL) _tuiGetRegisterRawValue (regNum, dataElement->value, frame); } return; } /* _tuiSetRegisterElement */ /* ** _tuiSetRegsContent(). ** Set the content of the data window to consist of the registers ** numbered from startRegNum to endRegNum. Note that if ** refreshValuesOnly is TRUE, startRegNum and endRegNum are ignored. */ static TuiStatus _tuiSetRegsContent (int startRegNum, int endRegNum, struct frame_info *frame, TuiRegisterDisplayType dpyType, int refreshValuesOnly) { TuiStatus ret = TUI_FAILURE; int numRegs = endRegNum - startRegNum + 1; int allocatedHere = FALSE; if (dataWin->detail.dataDisplayInfo.regsContentCount > 0 && !refreshValuesOnly) { freeDataContent (dataWin->detail.dataDisplayInfo.regsContent, dataWin->detail.dataDisplayInfo.regsContentCount); dataWin->detail.dataDisplayInfo.regsContentCount = 0; } if (dataWin->detail.dataDisplayInfo.regsContentCount <= 0) { dataWin->detail.dataDisplayInfo.regsContent = allocContent (numRegs, DATA_WIN); allocatedHere = TRUE; } if (dataWin->detail.dataDisplayInfo.regsContent != (TuiWinContent) NULL) { int i; if (!refreshValuesOnly || allocatedHere) { dataWin->generic.content = (OpaquePtr) NULL; dataWin->generic.contentSize = 0; addContentElements (&dataWin->generic, numRegs); dataWin->detail.dataDisplayInfo.regsContent = (TuiWinContent) dataWin->generic.content; dataWin->detail.dataDisplayInfo.regsContentCount = numRegs; } /* ** Now set the register names and values */ for (i = startRegNum; (i <= endRegNum); i++) { TuiGenWinInfoPtr dataItemWin; dataItemWin = &dataWin->detail.dataDisplayInfo. regsContent[i - startRegNum]->whichElement.dataWindow; _tuiSetRegisterElement ( i, frame, &((TuiWinElementPtr) dataItemWin->content[0])->whichElement.data, !allocatedHere && refreshValuesOnly); } dataWin->detail.dataDisplayInfo.regsColumnCount = tuiCalculateRegsColumnCount (dpyType); #ifdef LATER if (dataWin->detail.dataDisplayInfo.dataContentCount > 0) { /* delete all the windows? */ /* realloc content equal to dataContentCount + regsContentCount */ /* append dataWin->detail.dataDisplayInfo.dataContent to content */ } #endif dataWin->generic.contentSize = dataWin->detail.dataDisplayInfo.regsContentCount + dataWin->detail.dataDisplayInfo.dataContentCount; ret = TUI_SUCCESS; } return ret; } /* _tuiSetRegsContent */ /* ** _tuiDisplayRegister(). ** Function to display a register in a window. If hilite is TRUE, ** than the value will be displayed in reverse video */ static void _tuiDisplayRegister (int regNum, TuiGenWinInfoPtr winInfo, /* the data item window */ enum precision_type precision) { if (winInfo->handle != (WINDOW *) NULL) { int i; char buf[40]; int valueCharsWide, labelWidth; TuiDataElementPtr dataElementPtr = &((TuiWinContent) winInfo->content)[0]->whichElement.data; if (IS_64BIT || dataWin->detail.dataDisplayInfo.regsDisplayType == TUI_DFLOAT_REGS) { valueCharsWide = DOUBLE_FLOAT_VALUE_WIDTH; labelWidth = DOUBLE_FLOAT_LABEL_WIDTH; } else { if (dataWin->detail.dataDisplayInfo.regsDisplayType == TUI_SFLOAT_REGS) { valueCharsWide = SINGLE_FLOAT_VALUE_WIDTH; labelWidth = SINGLE_FLOAT_LABEL_WIDTH; } else { valueCharsWide = SINGLE_VALUE_WIDTH; labelWidth = SINGLE_LABEL_WIDTH; } } buf[0] = (char) 0; _tuiRegisterFormat (buf, valueCharsWide + labelWidth, regNum, dataElementPtr, precision); if (dataElementPtr->highlight) wstandout (winInfo->handle); wmove (winInfo->handle, 0, 0); for (i = 1; i < winInfo->width; i++) waddch (winInfo->handle, ' '); wmove (winInfo->handle, 0, 0); waddstr (winInfo->handle, buf); if (dataElementPtr->highlight) wstandend (winInfo->handle); tuiRefreshWin (winInfo); } return; } /* _tuiDisplayRegister */ static void _tui_vShowRegisters_commandSupport (TuiRegisterDisplayType dpyType) { if (m_winPtrNotNull (dataWin) && dataWin->generic.isVisible) { /* Data window already displayed, show the registers */ if (dataWin->detail.dataDisplayInfo.regsDisplayType != dpyType) tuiShowRegisters (dpyType); } else (tuiLayoutDef ())->regsDisplayType = dpyType; return; } /* _tui_vShowRegisters_commandSupport */ static void _tuiShowFloat_command (char *arg, int fromTTY) { if (m_winPtrIsNull (dataWin) || !dataWin->generic.isVisible || (dataWin->detail.dataDisplayInfo.regsDisplayType != TUI_SFLOAT_REGS && dataWin->detail.dataDisplayInfo.regsDisplayType != TUI_DFLOAT_REGS)) _tui_vShowRegisters_commandSupport ((tuiLayoutDef ())->floatRegsDisplayType); return; } /* _tuiShowFloat_command */ static void _tuiShowGeneral_command (char *arg, int fromTTY) { _tui_vShowRegisters_commandSupport (TUI_GENERAL_REGS); } static void _tuiShowSpecial_command (char *arg, int fromTTY) { _tui_vShowRegisters_commandSupport (TUI_SPECIAL_REGS); } static void _tuiToggleFloatRegs_command (char *arg, int fromTTY) { if (m_winPtrNotNull (dataWin) && dataWin->generic.isVisible) tuiToggleFloatRegs (); else { TuiLayoutDefPtr layoutDef = tuiLayoutDef (); if (layoutDef->floatRegsDisplayType == TUI_SFLOAT_REGS) layoutDef->floatRegsDisplayType = TUI_DFLOAT_REGS; else layoutDef->floatRegsDisplayType = TUI_SFLOAT_REGS; } return; } /* _tuiToggleFloatRegs_command */ static void _tuiScrollRegsForward_command (char *arg, int fromTTY) { tui_scroll (FORWARD_SCROLL, dataWin, 1); } static void _tuiScrollRegsBackward_command (char *arg, int fromTTY) { tui_scroll (BACKWARD_SCROLL, dataWin, 1); }