diff options
Diffstat (limited to 'geometry.c')
| -rw-r--r-- | geometry.c | 206 |
1 files changed, 103 insertions, 103 deletions
@@ -744,9 +744,9 @@ AddProperty(GeometryInfo * info, PropertyInfo * new) if (((old->defs.fileID == new->defs.fileID) && (warningLevel > 0)) || (warningLevel > 9)) { - WARN1("Multiple definitions for the \"%s\" property\n", + WARN("Multiple definitions for the \"%s\" property\n", new->name); - ACTION2("Ignoring \"%s\", using \"%s\"\n", old->value, + ACTION("Ignoring \"%s\", using \"%s\"\n", old->value, new->value); } if (old->value) @@ -757,8 +757,8 @@ AddProperty(GeometryInfo * info, PropertyInfo * new) if (((old->defs.fileID == new->defs.fileID) && (warningLevel > 0)) || (warningLevel > 9)) { - WARN1("Multiple definitions for \"%s\" property\n", new->name); - ACTION2("Using \"%s\", ignoring \"%s\" \n", old->value, + WARN("Multiple definitions for \"%s\" property\n", new->name); + ACTION("Using \"%s\", ignoring \"%s\" \n", old->value, new->value); } return True; @@ -804,11 +804,11 @@ FindShape(GeometryInfo * info, Atom name, const char *type, const char *which) if (type != NULL) { old = info->shapes; - WARN3("Unknown shape \"%s\" for %s %s\n", + WARN("Unknown shape \"%s\" for %s %s\n", XkbAtomText(info->dpy, name, XkbMessage), type, which); if (old) { - ACTION1("Using default shape %s instead\n", + ACTION("Using default shape %s instead\n", shText(info->dpy, old)); return old; } @@ -833,7 +833,7 @@ AddShape(GeometryInfo * info, ShapeInfo * new) if (((old->defs.fileID == new->defs.fileID) && (warningLevel > 0)) || (warningLevel > 9)) { - WARN1("Duplicate shape name \"%s\"\n", + WARN("Duplicate shape name \"%s\"\n", shText(info->dpy, old)); ACTION("Using last definition\n"); } @@ -844,7 +844,7 @@ AddShape(GeometryInfo * info, ShapeInfo * new) if (((old->defs.fileID == new->defs.fileID) && (warningLevel > 0)) || (warningLevel > 9)) { - WARN1("Multiple shapes named \"%s\"\n", shText(info->dpy, old)); + WARN("Multiple shapes named \"%s\"\n", shText(info->dpy, old)); ACTION("Using first definition\n"); } return True; @@ -940,7 +940,7 @@ AddDoodad(SectionInfo * si, GeometryInfo * info, DoodadInfo * new) if (((old->defs.fileID == new->defs.fileID) && (warningLevel > 0)) || (warningLevel > 9)) { - WARN1("Multiple doodads named \"%s\"\n", + WARN("Multiple doodads named \"%s\"\n", XkbAtomText(info->dpy, old->name, XkbMessage)); ACTION("Using last definition\n"); } @@ -951,7 +951,7 @@ AddDoodad(SectionInfo * si, GeometryInfo * info, DoodadInfo * new) if (((old->defs.fileID == new->defs.fileID) && (warningLevel > 0)) || (warningLevel > 9)) { - WARN1("Multiple doodads named \"%s\"\n", + WARN("Multiple doodads named \"%s\"\n", XkbAtomText(info->dpy, old->name, XkbMessage)); ACTION("Using first definition\n"); } @@ -1023,7 +1023,7 @@ AddOverlay(SectionInfo * si, GeometryInfo * info, OverlayInfo * new) if (((old->defs.fileID == new->defs.fileID) && (warningLevel > 0)) || (warningLevel > 9)) { - WARN2 + WARN ("Multiple overlays named \"%s\" for section \"%s\"\n", XkbAtomText(info->dpy, old->name, XkbMessage), XkbAtomText(info->dpy, si->name, XkbMessage)); @@ -1039,7 +1039,7 @@ AddOverlay(SectionInfo * si, GeometryInfo * info, OverlayInfo * new) if (((old->defs.fileID == new->defs.fileID) && (warningLevel > 0)) || (warningLevel > 9)) { - WARN2("Multiple doodads named \"%s\" in section \"%s\"\n", + WARN("Multiple doodads named \"%s\" in section \"%s\"\n", XkbAtomText(info->dpy, old->name, XkbMessage), XkbAtomText(info->dpy, si->name, XkbMessage)); ACTION("Using first definition\n"); @@ -1053,7 +1053,7 @@ AddOverlay(SectionInfo * si, GeometryInfo * info, OverlayInfo * new) if (warningLevel > 0) { WSGO("Couldn't allocate a new OverlayInfo\n"); - ACTION2 + ACTION ("Overlay \"%s\" in section \"%s\" will be incomplete\n", XkbAtomText(info->dpy, old->name, XkbMessage), XkbAtomText(info->dpy, si->name, XkbMessage)); @@ -1122,7 +1122,7 @@ AddSection(GeometryInfo * info, SectionInfo * new) if (((old->defs.fileID == new->defs.fileID) && (warningLevel > 0)) || (warningLevel > 9)) { - WARN1("Duplicate shape name \"%s\"\n", + WARN("Duplicate shape name \"%s\"\n", shText(info->dpy, old)); ACTION("Using last definition\n"); } @@ -1133,7 +1133,7 @@ AddSection(GeometryInfo * info, SectionInfo * new) if (((old->defs.fileID == new->defs.fileID) && (warningLevel > 0)) || (warningLevel > 9)) { - WARN1("Multiple shapes named \"%s\"\n", shText(info->dpy, old)); + WARN("Multiple shapes named \"%s\"\n", shText(info->dpy, old)); ACTION("Using first definition\n"); } return True; @@ -1808,9 +1808,9 @@ SetDoodadField(DoodadInfo * di, if ((tmp.ival < 0) || (tmp.ival > XkbGeomMaxPriority)) { info->errorCount++; - ERROR2("Doodad priority %d out of range (must be 0..%d)\n", + ERROR("Doodad priority %d out of range (must be 0..%d)\n", tmp.ival, XkbGeomMaxPriority); - ACTION1("Priority for doodad %s not changed", + ACTION("Priority for doodad %s not changed", ddText(info->dpy, di)); return False; } @@ -1881,9 +1881,9 @@ SetDoodadField(DoodadInfo * di, case XkbLogoDoodad: return SetLogoDoodadField(di, field, arrayNdx, value, si, info); } - WSGO1("Unknown doodad type %d in SetDoodadField\n", + WSGO("Unknown doodad type %d in SetDoodadField\n", (unsigned int) di->type); - ACTION2("Definition of %s in %s ignored\n", field, ddText(info->dpy, di)); + ACTION("Definition of %s in %s ignored\n", field, ddText(info->dpy, di)); return False; } @@ -1916,9 +1916,9 @@ SetSectionField(SectionInfo * si, if ((tmp.ival < 0) || (tmp.ival > XkbGeomMaxPriority)) { info->errorCount++; - ERROR2("Section priority %d out of range (must be 0..%d)\n", + ERROR("Section priority %d out of range (must be 0..%d)\n", tmp.ival, XkbGeomMaxPriority); - ACTION1("Priority for section %s not changed", + ACTION("Priority for section %s not changed", scText(info->dpy, si)); return False; } @@ -2131,7 +2131,7 @@ SetGeometryProperty(GeometryInfo * info, char *property, ExprDef * value) { info->errorCount++; ERROR("Property values must be type string\n"); - ACTION1("Ignoring illegal definition of \"%s\" property\n", property); + ACTION("Ignoring illegal definition of \"%s\" property\n", property); return False; } pi.value = result.str; @@ -2166,7 +2166,7 @@ HandleGeometryVar(VarDef * stmt, XkbDescPtr xkb, GeometryInfo * info) if (ndx != NULL) { info->errorCount++; - ERROR1("The %s geometry property is not an array\n", field.str); + ERROR("The %s geometry property is not an array\n", field.str); ACTION("Ignoring illegal property definition\n"); return False; } @@ -2220,7 +2220,7 @@ HandleGeometryVar(VarDef * stmt, XkbDescPtr xkb, GeometryInfo * info) if (elem.str) { WARN("Assignment to field of unknown element\n"); - ACTION2("No value assigned to %s.%s\n", elem.str, field.str); + ACTION("No value assigned to %s.%s\n", elem.str, field.str); return False; } @@ -2240,16 +2240,16 @@ HandleGeometryVar(VarDef * stmt, XkbDescPtr xkb, GeometryInfo * info) if (tmp.ival < 1) { WARN("Keyboard width must be positive\n"); - ACTION1("Ignoring illegal keyboard width %s\n", + ACTION("Ignoring illegal keyboard width %s\n", XkbGeomFPText(tmp.ival, XkbMessage)); return True; } if (info->widthMM != 0) { WARN("Keyboard width multiply defined\n"); - ACTION1("Using last definition (%s),", + ACTION("Using last definition (%s),", XkbGeomFPText(tmp.ival, XkbMessage)); - INFO1(" ignoring first (%s)\n", + INFO(" ignoring first (%s)\n", XkbGeomFPText(info->widthMM, XkbMessage)); } info->widthMM = tmp.ival; @@ -2271,16 +2271,16 @@ HandleGeometryVar(VarDef * stmt, XkbDescPtr xkb, GeometryInfo * info) if (tmp.ival < 1) { WARN("Keyboard height must be positive\n"); - ACTION1("Ignoring illegal keyboard height %s\n", + ACTION("Ignoring illegal keyboard height %s\n", XkbGeomFPText(tmp.ival, XkbMessage)); return True; } if (info->heightMM != 0) { WARN("Keyboard height multiply defined\n"); - ACTION1("Using last definition (%s),", + ACTION("Using last definition (%s),", XkbGeomFPText(tmp.ival, XkbMessage)); - INFO1(" ignoring first (%s)\n", + INFO(" ignoring first (%s)\n", XkbGeomFPText(info->heightMM, XkbMessage)); } info->heightMM = tmp.ival; @@ -2330,7 +2330,7 @@ HandleGeometryVar(VarDef * stmt, XkbDescPtr xkb, GeometryInfo * info) if ((tmp.ival < 40) || (tmp.ival > 2550)) { info->errorCount++; - ERROR1("Illegal font size %d (must be 4..255)\n", tmp.ival); + ERROR("Illegal font size %d (must be 4..255)\n", tmp.ival); ACTION("Ignoring font size in keyboard geometry\n"); return False; } @@ -2400,7 +2400,7 @@ HandleShapeBody(ShapeDef * def, ShapeInfo * si, unsigned merge, if (def->nOutlines < 1) { - WARN1("Shape \"%s\" has no outlines\n", shText(info->dpy, si)); + WARN("Shape \"%s\" has no outlines\n", shText(info->dpy, si)); ACTION("Definition ignored\n"); return True; } @@ -2408,7 +2408,7 @@ HandleShapeBody(ShapeDef * def, ShapeInfo * si, unsigned merge, si->outlines = uTypedCalloc(def->nOutlines, XkbOutlineRec); if (!si->outlines) { - ERROR1("Couldn't allocate outlines for \"%s\"\n", + ERROR("Couldn't allocate outlines for \"%s\"\n", shText(info->dpy, si)); ACTION("Definition ignored\n"); info->errorCount++; @@ -2429,7 +2429,7 @@ HandleShapeBody(ShapeDef * def, ShapeInfo * si, unsigned merge, outline->points = uTypedCalloc(ol->nPoints, XkbPointRec); if (!outline->points) { - ERROR1("Can't allocate points for \"%s\"\n", + ERROR("Can't allocate points for \"%s\"\n", shText(info->dpy, si)); ACTION("Definition ignored\n"); info->errorCount++; @@ -2452,7 +2452,7 @@ HandleShapeBody(ShapeDef * def, ShapeInfo * si, unsigned merge, si->approx = outline; else { - WARN1("Multiple approximations for \"%s\"\n", + WARN("Multiple approximations for \"%s\"\n", shText(info->dpy, si)); ACTION("Treating all but the first as normal outlines\n"); } @@ -2463,14 +2463,14 @@ HandleShapeBody(ShapeDef * def, ShapeInfo * si, unsigned merge, si->primary = outline; else { - WARN1("Multiple primary outlines for \"%s\"\n", + WARN("Multiple primary outlines for \"%s\"\n", shText(info->dpy, si)); ACTION("Treating all but the first as normal outlines\n"); } } else { - WARN2("Unknown outline type %s for \"%s\"\n", str, + WARN("Unknown outline type %s for \"%s\"\n", str, shText(info->dpy, si)); ACTION("Treated as a normal outline\n"); } @@ -2478,7 +2478,7 @@ HandleShapeBody(ShapeDef * def, ShapeInfo * si, unsigned merge, } if (nOut != si->nOutlines) { - WSGO2("Expected %d outlines, got %d\n", + WSGO("Expected %d outlines, got %d\n", (unsigned int) si->nOutlines, nOut); si->nOutlines = nOut; } @@ -2531,9 +2531,9 @@ HandleDoodadDef(DoodadDef * def, return 0; /* internal error, already reported */ if (elem.str != NULL) { - WARN1("Assignment to field of unknown element in doodad %s\n", + WARN("Assignment to field of unknown element in doodad %s\n", ddText(info->dpy, &new)); - ACTION2("No value assigned to %s.%s\n", elem.str, field.str); + ACTION("No value assigned to %s.%s\n", elem.str, field.str); } else if (!SetDoodadField(&new, field.str, ndx, var->value, si, info)) return False; @@ -2556,7 +2556,7 @@ HandleOverlayDef(OverlayDef * def, if ((def->nKeys < 1) && (warningLevel > 3)) { - WARN2("Overlay \"%s\" in section \"%s\" has no keys\n", + WARN("Overlay \"%s\" in section \"%s\" has no keys\n", XkbAtomText(NULL, def->name, XkbMessage), scText(info->dpy, si)); ACTION("Overlay ignored\n"); @@ -2572,7 +2572,7 @@ HandleOverlayDef(OverlayDef * def, if ((!key) && warningLevel > 0) { WSGO("Couldn't allocate OverlayKeyInfo\n"); - ACTION2("Overlay %s for section %s will be incomplete\n", + ACTION("Overlay %s for section %s will be incomplete\n", XkbAtomText(info->dpy, ol.name, XkbMessage), scText(info->dpy, si)); return False; @@ -2617,7 +2617,7 @@ HandleComplexKey(KeyDef * def, KeyInfo * key, GeometryInfo * info) else { ERROR("Illegal element used in a key definition\n"); - ACTION2("Assignment to %s.%s ignored\n", elem.str, f.str); + ACTION("Assignment to %s.%s ignored\n", elem.str, f.str); return False; } } @@ -2640,7 +2640,7 @@ HandleComplexKey(KeyDef * def, KeyInfo * key, GeometryInfo * info) break; default: ERROR("Cannot determine field for unnamed expression\n"); - ACTION3("Ignoring key %d in row %d of section %s\n", + ACTION("Ignoring key %d in row %d of section %s\n", row->nKeys + 1, row->section->nRows + 1, rowText(info->dpy, row)); return False; @@ -2658,7 +2658,7 @@ HandleRowBody(RowDef * def, RowInfo * row, unsigned merge, if ((def->nKeys < 1) && (warningLevel > 3)) { - ERROR1("Row in section %s has no keys\n", rowText(info->dpy, row)); + ERROR("Row in section %s has no keys\n", rowText(info->dpy, row)); ACTION("Section ignored\n"); return True; } @@ -2686,7 +2686,7 @@ HandleRowBody(RowDef * def, RowInfo * row, unsigned merge, else { WARN("Assignment to field of unknown element in row\n"); - ACTION2("No value assigned to %s.%s\n", elem.str, field.str); + ACTION("No value assigned to %s.%s\n", elem.str, field.str); } } else if (keyDef->common.stmtType == StmtKeyDef) @@ -2698,7 +2698,7 @@ HandleRowBody(RowDef * def, RowInfo * row, unsigned merge, int len = strlen(keyDef->name); if ((len < 1) || (len > XkbKeyNameLength)) { - ERROR2("Illegal name %s for key in section %s\n", + ERROR("Illegal name %s for key in section %s\n", keyDef->name, rowText(info->dpy, row)); ACTION("Section not compiled\n"); return False; @@ -2714,7 +2714,7 @@ HandleRowBody(RowDef * def, RowInfo * row, unsigned merge, } else { - WSGO1("Unexpected statement (type %d) in row body\n", + WSGO("Unexpected statement (type %d) in row body\n", keyDef->common.stmtType); return False; } @@ -2765,7 +2765,7 @@ HandleSectionBody(SectionDef * def, else { WARN("Assignment to field of unknown element in section\n"); - ACTION2("No value assigned to %s.%s\n", elem.str, field.str); + ACTION("No value assigned to %s.%s\n", elem.str, field.str); } } else if (rowDef->common.stmtType == StmtRowDef) @@ -2791,16 +2791,16 @@ HandleSectionBody(SectionDef * def, } else { - WSGO1("Unexpected statement (type %d) in section body\n", + WSGO("Unexpected statement (type %d) in section body\n", rowDef->common.stmtType); return False; } } if (si->nRows != def->nRows) { - WSGO2("Expected %d rows, found %d\n", (unsigned int) def->nRows, + WSGO("Expected %d rows, found %d\n", (unsigned int) def->nRows, (unsigned int) si->nRows); - ACTION1("Definition of section %s might be incorrect\n", + ACTION("Definition of section %s might be incorrect\n", scText(info->dpy, si)); } return True; @@ -2893,11 +2893,11 @@ HandleGeometryFile(XkbFile * file, if (!failWhat) failWhat = "key name"; ERROR("Interpretation files may not include other types\n"); - ACTION1("Ignoring %s definition.\n", failWhat); + ACTION("Ignoring %s definition.\n", failWhat); info->errorCount++; break; default: - WSGO1("Unexpected statement type %d in HandleGeometryFile\n", + WSGO("Unexpected statement type %d in HandleGeometryFile\n", stmt->stmtType); break; } @@ -2907,7 +2907,7 @@ HandleGeometryFile(XkbFile * file, #ifdef NOISY ERROR("Too many errors\n"); #endif - ACTION1("Abandoning geometry file \"%s\"\n", file->topName); + ACTION("Abandoning geometry file \"%s\"\n", file->topName); break; } } @@ -2930,7 +2930,7 @@ CopyShapeDef(Display * dpy, XkbGeometryPtr geom, ShapeInfo * si) if (!shape) { WSGO("Couldn't allocate shape in geometry\n"); - ACTION1("Shape %s not compiled\n", shText(dpy, si)); + ACTION("Shape %s not compiled\n", shText(dpy, si)); return False; } old_outline = si->outlines; @@ -2940,7 +2940,7 @@ CopyShapeDef(Display * dpy, XkbGeometryPtr geom, ShapeInfo * si) if (!outline) { WSGO("Couldn't allocate outline in shape\n"); - ACTION1("Shape %s is incomplete\n", shText(dpy, si)); + ACTION("Shape %s is incomplete\n", shText(dpy, si)); return False; } n = old_outline->num_points; @@ -2969,7 +2969,7 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) { if (warningLevel < 9) { - ERROR1("No position defined for doodad %s\n", + ERROR("No position defined for doodad %s\n", ddText(info->dpy, di)); ACTION("Illegal doodad ignored\n"); return False; @@ -2985,7 +2985,7 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) case XkbSolidDoodad: if ((di->defs.defined & _GD_Shape) == 0) { - ERROR2("No shape defined for %s doodad %s\n", + ERROR("No shape defined for %s doodad %s\n", (di->type == XkbOutlineDoodad ? "outline" : "filled"), ddText(info->dpy, di)); ACTION("Incomplete definition ignored\n"); @@ -3002,7 +3002,7 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) di->shape = si->name; else { - ERROR1("No legal shape for %s\n", ddText(info->dpy, di)); + ERROR("No legal shape for %s\n", ddText(info->dpy, di)); ACTION("Incomplete definition ignored\n"); return False; } @@ -3011,7 +3011,7 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) { if (warningLevel > 5) { - WARN1("No color for doodad %s\n", ddText(info->dpy, di)); + WARN("No color for doodad %s\n", ddText(info->dpy, di)); ACTION("Using black\n"); } di->color = XkbInternAtom(NULL, "black", False); @@ -3020,7 +3020,7 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) case XkbTextDoodad: if ((di->defs.defined & _GD_Text) == 0) { - ERROR1("No text specified for text doodad %s\n", + ERROR("No text specified for text doodad %s\n", ddText(info->dpy, di)); ACTION("Illegal doodad definition ignored\n"); return False; @@ -3031,7 +3031,7 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) { if (warningLevel > 5) { - WARN1("No color specified for doodad %s\n", + WARN("No color specified for doodad %s\n", ddText(info->dpy, di)); ACTION("Using black\n"); } @@ -3043,7 +3043,7 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) return True; if (warningLevel < 9) { - WARN1 + WARN ("Text doodad %s has full and partial font definition\n", ddText(info->dpy, di)); ACTION("Full specification ignored\n"); @@ -3055,9 +3055,9 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) { if (warningLevel > 5) { - WARN1("No font specified for doodad %s\n", + WARN("No font specified for doodad %s\n", ddText(info->dpy, di)); - ACTION1("Using \"%s\"\n", DFLT_FONT); + ACTION("Using \"%s\"\n", DFLT_FONT); } di->font = XkbInternAtom(NULL, DFLT_FONT, False); } @@ -3065,9 +3065,9 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) { if (warningLevel > 7) { - WARN1("No font slant for text doodad %s\n", + WARN("No font slant for text doodad %s\n", ddText(info->dpy, di)); - ACTION1("Using \"%s\"\n", DFLT_SLANT); + ACTION("Using \"%s\"\n", DFLT_SLANT); } di->fontSlant = XkbInternAtom(NULL, DFLT_SLANT, False); } @@ -3075,9 +3075,9 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) { if (warningLevel > 7) { - WARN1("No font weight for text doodad %s\n", + WARN("No font weight for text doodad %s\n", ddText(info->dpy, di)); - ACTION1("Using \"%s\"\n", DFLT_WEIGHT); + ACTION("Using \"%s\"\n", DFLT_WEIGHT); } di->fontWeight = XkbInternAtom(NULL, DFLT_WEIGHT, False); } @@ -3085,9 +3085,9 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) { if (warningLevel > 9) { - WARN1("No font set width for text doodad %s\n", + WARN("No font set width for text doodad %s\n", ddText(info->dpy, di)); - ACTION1("Using \"%s\"\n", DFLT_SET_WIDTH); + ACTION("Using \"%s\"\n", DFLT_SET_WIDTH); } di->fontSetWidth = XkbInternAtom(NULL, DFLT_SET_WIDTH, False); } @@ -3095,9 +3095,9 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) { if (warningLevel > 9) { - WARN1("No font variant for text doodad %s\n", + WARN("No font variant for text doodad %s\n", ddText(info->dpy, di)); - ACTION1("Using \"%s\"\n", DFLT_VARIANT); + ACTION("Using \"%s\"\n", DFLT_VARIANT); } di->fontVariant = XkbInternAtom(NULL, DFLT_VARIANT, False); } @@ -3105,9 +3105,9 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) { if (warningLevel > 7) { - WARN1("No font encoding for doodad %s\n", + WARN("No font encoding for doodad %s\n", ddText(info->dpy, di)); - ACTION1("Using \"%s\"\n", DFLT_ENCODING); + ACTION("Using \"%s\"\n", DFLT_ENCODING); } di->fontEncoding = XkbInternAtom(NULL, DFLT_ENCODING, False); } @@ -3115,9 +3115,9 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) { if (warningLevel > 7) { - WARN1("No font size for text doodad %s\n", + WARN("No font size for text doodad %s\n", ddText(info->dpy, di)); - ACTION1("Using %s point text\n", + ACTION("Using %s point text\n", XkbGeomFPText(DFLT_SIZE, XkbMessage)); } di->fontSize = DFLT_SIZE; @@ -3137,9 +3137,9 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) size *= nLines; if (warningLevel > 5) { - WARN1("No height for text doodad %s\n", + WARN("No height for text doodad %s\n", ddText(info->dpy, di)); - ACTION1("Using calculated height %s millimeters\n", + ACTION("Using calculated height %s millimeters\n", XkbGeomFPText(size, XkbMessage)); } di->height = size; @@ -3165,8 +3165,8 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) width *= (di->height * 2) / 3; if (warningLevel > 5) { - WARN1("No width for text doodad %s\n", ddText(info->dpy, di)); - ACTION1("Using calculated width %s millimeters\n", + WARN("No width for text doodad %s\n", ddText(info->dpy, di)); + ACTION("Using calculated width %s millimeters\n", XkbGeomFPText(width, XkbMessage)); } di->width = width; @@ -3175,7 +3175,7 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) case XkbIndicatorDoodad: if ((di->defs.defined & _GD_Shape) == 0) { - ERROR1("No shape defined for indicator doodad %s\n", + ERROR("No shape defined for indicator doodad %s\n", ddText(info->dpy, di)); ACTION("Incomplete definition ignored\n"); return False; @@ -3189,7 +3189,7 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) di->shape = si->name; else { - ERROR1("No legal shape for doodad %s\n", + ERROR("No legal shape for doodad %s\n", ddText(info->dpy, di)); ACTION("Incomplete definition ignored\n"); return False; @@ -3199,7 +3199,7 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) { if (warningLevel > 5) { - WARN1("No \"on\" color for indicator doodad %s\n", + WARN("No \"on\" color for indicator doodad %s\n", ddText(info->dpy, di)); ACTION("Using green\n"); } @@ -3209,7 +3209,7 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) { if (warningLevel > 5) { - WARN1("No \"off\" color for indicator doodad %s\n", + WARN("No \"off\" color for indicator doodad %s\n", ddText(info->dpy, di)); ACTION("Using black\n"); } @@ -3219,14 +3219,14 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) case XkbLogoDoodad: if (di->logoName == NULL) { - ERROR1("No logo name defined for logo doodad %s\n", + ERROR("No logo name defined for logo doodad %s\n", ddText(info->dpy, di)); ACTION("Incomplete definition ignored\n"); return False; } if ((di->defs.defined & _GD_Shape) == 0) { - ERROR1("No shape defined for logo doodad %s\n", + ERROR("No shape defined for logo doodad %s\n", ddText(info->dpy, di)); ACTION("Incomplete definition ignored\n"); return False; @@ -3240,7 +3240,7 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) di->shape = si->name; else { - ERROR1("No legal shape for %s\n", ddText(info->dpy, di)); + ERROR("No legal shape for %s\n", ddText(info->dpy, di)); ACTION("Incomplete definition ignored\n"); return False; } @@ -3249,14 +3249,14 @@ VerifyDoodadInfo(DoodadInfo * di, GeometryInfo * info) { if (warningLevel > 5) { - WARN1("No color for doodad %s\n", ddText(info->dpy, di)); + WARN("No color for doodad %s\n", ddText(info->dpy, di)); ACTION("Using black\n"); } di->color = XkbInternAtom(NULL, "black", False); } break; default: - WSGO1("Unknown doodad type %d in VerifyDoodad\n", + WSGO("Unknown doodad type %d in VerifyDoodad\n", (unsigned int) di->type); return False; } @@ -3318,9 +3318,9 @@ CopyDoodadDef(XkbGeometryPtr geom, doodad = XkbAddGeomDoodad(geom, section, name); if (!doodad) { - WSGO1("Couldn't allocate doodad in %s\n", + WSGO("Couldn't allocate doodad in %s\n", (section ? "section" : "geometry")); - ACTION1("Cannot copy doodad %s\n", ddText(info->dpy, di)); + ACTION("Cannot copy doodad %s\n", ddText(info->dpy, di)); return False; } doodad->any.type = di->type; @@ -3423,7 +3423,7 @@ VerifyOverlayInfo(XkbGeometryPtr geom, { if (warningLevel > 0) { - WARN3 + WARN ("Key %s in section \"%s\" and overlay \"%s\"\n", XkbKeyNameText(key->name.name, XkbMessage), @@ -3443,7 +3443,7 @@ VerifyOverlayInfo(XkbGeometryPtr geom, } if ((ki->sectionRow == _GOK_UnknownRow) && (warningLevel > 0)) { - WARN3 + WARN ("Key %s not in \"%s\", but has an overlay key in \"%s\"\n", XkbKeyNameText(ki->under, XkbMessage), XkbAtomText(info->dpy, section->name, XkbMessage), @@ -3472,7 +3472,7 @@ VerifyOverlayInfo(XkbGeometryPtr geom, } if (oi->nKeys < 1) { - ERROR2("Overlay \"%s\" for section \"%s\" has no legal keys\n", + ERROR("Overlay \"%s\" for section \"%s\" has no legal keys\n", XkbAtomText(info->dpy, oi->name, XkbMessage), XkbAtomText(info->dpy, section->name, XkbMessage)); ACTION("Overlay definition ignored\n"); @@ -3513,7 +3513,7 @@ CopyOverlayDef(XkbGeometryPtr geom, ol = XkbAddGeomOverlay(section, name, oi->nRows); if (!ol) { - WSGO2("Couldn't add overlay \"%s\" to section \"%s\"\n", + WSGO("Couldn't add overlay \"%s\" to section \"%s\"\n", XkbAtomText(info->dpy, name, XkbMessage), XkbAtomText(info->dpy, section->name, XkbMessage)); return False; @@ -3529,7 +3529,7 @@ CopyOverlayDef(XkbGeometryPtr geom, } if (!XkbAddGeomOverlayRow(ol, row_under, rowSize[i])) { - WSGO3 + WSGO ("Can't add row %d to overlay \"%s\" of section \"%s\"\n", i, XkbAtomText(info->dpy, name, XkbMessage), XkbAtomText(info->dpy, section->name, XkbMessage)); @@ -3565,7 +3565,7 @@ CopySectionDef(XkbGeometryPtr geom, SectionInfo * si, GeometryInfo * info) if (section == NULL) { WSGO("Couldn't allocate section in geometry\n"); - ACTION1("Section %s not compiled\n", scText(info->dpy, si)); + ACTION("Section %s not compiled\n", scText(info->dpy, si)); return False; } section->top = si->top; @@ -3580,7 +3580,7 @@ CopySectionDef(XkbGeometryPtr geom, SectionInfo * si, GeometryInfo * info) if (row == NULL) { WSGO("Couldn't allocate row in section\n"); - ACTION1("Section %s is incomplete\n", scText(info->dpy, si)); + ACTION("Section %s is incomplete\n", scText(info->dpy, si)); return False; } row->top = ri->top; @@ -3591,17 +3591,17 @@ CopySectionDef(XkbGeometryPtr geom, SectionInfo * si, GeometryInfo * info) XkbColorPtr color; if ((ki->defs.defined & _GK_Name) == 0) { - ERROR3("Key %d of row %d in section %s has no name\n", + ERROR("Key %d of row %d in section %s has no name\n", (int) ki->index, (int) ri->index, scText(info->dpy, si)); - ACTION1("Section %s ignored\n", scText(info->dpy, si)); + ACTION("Section %s ignored\n", scText(info->dpy, si)); return False; } key = XkbAddGeomKey(row); if (key == NULL) { WSGO("Couldn't allocate key in row\n"); - ACTION1("Section %s is incomplete\n", scText(info->dpy, si)); + ACTION("Section %s is incomplete\n", scText(info->dpy, si)); return False; } memcpy(key->name.name, ki->name, XkbKeyNameLength); |