/* htop - RichString.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 "RichString.h" #include #include #include #include "Macros.h" #include "XUtils.h" #define charBytes(n) (sizeof(CharType) * (n)) static void RichString_extendLen(RichString* this, int len) { if (this->chlen <= RICHSTRING_MAXLEN) { if (len > RICHSTRING_MAXLEN) { this->chptr = xMalloc(charBytes(len + 1)); memcpy(this->chptr, this->chstr, charBytes(this->chlen)); } } else { if (len <= RICHSTRING_MAXLEN) { memcpy(this->chstr, this->chptr, charBytes(len)); free(this->chptr); this->chptr = this->chstr; } else { this->chptr = xRealloc(this->chptr, charBytes(len + 1)); } } RichString_setChar(this, len, 0); this->chlen = len; } static void RichString_setLen(RichString* this, int len) { if (len < RICHSTRING_MAXLEN && this->chlen < RICHSTRING_MAXLEN) { RichString_setChar(this, len, 0); this->chlen = len; } else { RichString_extendLen(this, len); } } void RichString_rewind(RichString* this, int count) { RichString_setLen(this, this->chlen - count); } #ifdef HAVE_LIBNCURSESW static inline int RichString_writeFromWide(RichString* this, int attrs, const char* data_c, int from, int len) { wchar_t data[len + 1]; len = mbstowcs(data, data_c, len); if (len <= 0) return 0; int newLen = from + len; RichString_setLen(this, newLen); for (int i = from, j = 0; i < newLen; i++, j++) { this->chptr[i] = (CharType) { .attr = attrs & 0xffffff, .chars = { (iswprint(data[j]) ? data[j] : '?') } }; } return len; } int RichString_appendnWideColumns(RichString* this, int attrs, const char* data_c, int len, int* columns) { wchar_t data[len + 1]; len = mbstowcs(data, data_c, len); if (len <= 0) return 0; int from = this->chlen; int newLen = from + len; RichString_setLen(this, newLen); int columnsWritten = 0; int pos = from; for (int j = 0; j < len; j++) { wchar_t c = iswprint(data[j]) ? data[j] : '?'; int cwidth = wcwidth(c); if (cwidth > *columns) break; *columns -= cwidth; columnsWritten += cwidth; this->chptr[pos] = (CharType) { .attr = attrs & 0xffffff, .chars = { c, '\0' } }; pos++; } RichString_setLen(this, pos); *columns = columnsWritten; return pos - from; } static inline int RichString_writeFromAscii(RichString* this, int attrs, const char* data, int from, int len) { int newLen = from + len; RichString_setLen(this, newLen); for (int i = from, j = 0; i < newLen; i++, j++) { this->chptr[i] = (CharType) { .attr = attrs & 0xffffff, .chars = { (isprint(data[j]) ? data[j] : '?') } }; } return len; } inline void RichString_setAttrn(RichString* this, int attrs, int start, int charcount) { int end = CLAMP(start + charcount, 0, this->chlen); for (int i = start; i < end; i++) { this->chptr[i].attr = attrs; } } void RichString_appendChr(RichString* this, int attrs, char c, int count) { int from = this->chlen; int newLen = from + count; RichString_setLen(this, newLen); for (int i = from; i < newLen; i++) { this->chptr[i] = (CharType) { .attr = attrs, .chars = { c, 0 } }; } } int RichString_findChar(const RichString* this, char c, int start) { const wchar_t wc = btowc(c); const cchar_t* ch = this->chptr + start; for (int i = start; i < this->chlen; i++) { if (ch->chars[0] == wc) return i; ch++; } return -1; } #else /* HAVE_LIBNCURSESW */ static inline int RichString_writeFromWide(RichString* this, int attrs, const char* data_c, int from, int len) { int newLen = from + len; RichString_setLen(this, newLen); for (int i = from, j = 0; i < newLen; i++, j++) { this->chptr[i] = (((unsigned char)data_c[j]) >= 32 ? ((unsigned char)data_c[j]) : '?') | attrs; } this->chptr[newLen] = 0; return len; } int RichString_appendnWideColumns(RichString* this, int attrs, const char* data_c, int len, int* columns) { int written = RichString_writeFromWide(this, attrs, data_c, this->chlen, MINIMUM(len, *columns)); *columns = written; return written; } static inline int RichString_writeFromAscii(RichString* this, int attrs, const char* data_c, int from, int len) { return RichString_writeFromWide(this, attrs, data_c, from, len); } void RichString_setAttrn(RichString* this, int attrs, int start, int charcount) { int end = CLAMP(start + charcount, 0, this->chlen); for (int i = start; i < end; i++) { this->chptr[i] = (this->chptr[i] & 0xff) | attrs; } } void RichString_appendChr(RichString* this, int attrs, char c, int count) { int from = this->chlen; int newLen = from + count; RichString_setLen(this, newLen); for (int i = from; i < newLen; i++) { this->chptr[i] = c | attrs; } } int RichString_findChar(const RichString* this, char c, int start) { const chtype* ch = this->chptr + start; for (int i = start; i < this->chlen; i++) { if ((*ch & 0xff) == (chtype) c) return i; ch++; } return -1; } #endif /* HAVE_LIBNCURSESW */ void RichString_delete(RichString* this) { if (this->chlen > RICHSTRING_MAXLEN) { free(this->chptr); this->chptr = this->chstr; } } void RichString_setAttr(RichString* this, int attrs) { RichString_setAttrn(this, attrs, 0, this->chlen); } int RichString_appendWide(RichString* this, int attrs, const char* data) { return RichString_writeFromWide(this, attrs, data, this->chlen, strlen(data)); } int RichString_appendnWide(RichString* this, int attrs, const char* data, int len) { return RichString_writeFromWide(this, attrs, data, this->chlen, len); } int RichString_writeWide(RichString* this, int attrs, const char* data) { return RichString_writeFromWide(this, attrs, data, 0, strlen(data)); } int RichString_appendAscii(RichString* this, int attrs, const char* data) { return RichString_writeFromAscii(this, attrs, data, this->chlen, strlen(data)); } int RichString_appendnAscii(RichString* this, int attrs, const char* data, int len) { return RichString_writeFromAscii(this, attrs, data, this->chlen, len); } int RichString_writeAscii(RichString* this, int attrs, const char* data) { return RichString_writeFromAscii(this, attrs, data, 0, strlen(data)); }