/**
* InitGame - 游戏初始化
*/
VOID CNoGo::InitGame()
{
memset(StepNum, 0, sizeof(StepNum));
player = BLACK;
count = 0;
CleanStack(stepStack);//清空着法栈
InitBoard();//初始化棋盘
}
void
ConvertAllttString(char *s)
/******************************************************************************
purpose : converts string in TeX-format to Rtf-format
according to the alltt environment, which is like
verbatim environment except that \, {, and } have
their usual meanings
******************************************************************************/
{
char cThis;
if (s==NULL) return;
diagnostics(4, "Entering Convert() from StringAllttConvert()");
if(PushSource(NULL, s)==0) {
while (StillSource()) {
cThis = getRawTexChar(); /* it is a verbatim like environment */
switch (cThis) {
case '\\':
PushLevels();
TranslateCommand();
CleanStack();
break;
case '{':
PushBrace();
fprintRTF("{");
break;
case '}':
ret = RecursionLevel - PopBrace();
fprintRTF("}");
break;
default:
putRtfChar(cThis);
break;
}
}
PopSource();
}
diagnostics(4, "Exiting Convert() from StringAllttConvert()");
}
void
Convert()
/****************************************************************************
purpose: converts inputfile and writes result to outputfile
globals: fTex, fRtf and all global flags for convert (see above)
****************************************************************************/
{
char cThis = '\n';
char cLast = '\0';
char cNext;
int mode, count,pending_new_paragraph;
diagnostics(3, "Entering Convert ret = %d", ret);
RecursionLevel++;
PushLevels();
while ((cThis = getTexChar()) && cThis != '\0') {
if (cThis == '\n')
diagnostics(5, "Current character is '\\n' mode = %d ret = %d level = %d", GetTexMode(), ret, RecursionLevel);
else
diagnostics(5, "Current character is '%c' mode = %d ret = %d level = %d", cThis, GetTexMode(), ret, RecursionLevel);
mode = GetTexMode();
pending_new_paragraph--;
switch (cThis) {
case '\\':
PushLevels();
TranslateCommand();
CleanStack();
if (ret > 0) {
diagnostics(5, "Exiting Convert via TranslateCommand ret = %d level = %d", ret, RecursionLevel);
ret--;
RecursionLevel--;
return;
}
break;
case '{':
if (mode==MODE_VERTICAL) SetTexMode(MODE_HORIZONTAL);
CleanStack();
PushBrace();
fprintRTF("{");
break;
case '}':
CleanStack();
ret = RecursionLevel - PopBrace();
fprintRTF("}");
if (ret > 0) {
diagnostics(5, "Exiting Convert via '}' ret = %d level = %d", ret, RecursionLevel);
ret--;
RecursionLevel--;
return;
}
break;
case ' ':
if (mode==MODE_VERTICAL || mode==MODE_MATH || mode==MODE_DISPLAYMATH)
cThis = cLast;
else if ( cLast != ' ' && cLast != '\n' ) {
if (GetTexMode()==MODE_RESTRICTED_HORIZONTAL)
fprintRTF("\\~");
else
fprintRTF(" ");
}
break;
case '\n':
tabcounter = 0;
if (mode==MODE_MATH || mode==MODE_DISPLAYMATH) {
cNext = getNonBlank();
ungetTexChar(cNext);
} else {
cNext = getNonSpace();
if (cNext == '\n') { /* new paragraph ... skip all ' ' and '\n' */
pending_new_paragraph=2;
CmdEndParagraph(0);
cNext = getNonBlank();
ungetTexChar(cNext);
} else { /* add a space if needed */
ungetTexChar(cNext);
if (mode != MODE_VERTICAL && cLast != ' ')
fprintRTF(" ");
}
}
break;
case '$':
cNext = getTexChar();
diagnostics(5,"Processing $, next char <%c>",cNext);
if (cNext == '$' && GetTexMode() != MODE_MATH)
CmdEquation(EQN_DOLLAR_DOLLAR | ON);
else {
ungetTexChar(cNext);
CmdEquation(EQN_DOLLAR | ON);
}
/*
Formulas need to close all Convert() operations when they end
This works for \begin{equation} but not $$ since the BraceLevel
and environments don't get pushed properly. We do it explicitly here.
*/
/*
if (GetTexMode() == MODE_MATH || GetTexMode() == MODE_DISPLAYMATH)
PushBrace();
else {
ret = RecursionLevel - PopBrace();
if (ret > 0) {
ret--;
RecursionLevel--;
diagnostics(5, "Exiting Convert via Math ret = %d", ret);
return;
}
}
*/
break;
case '&':
if (g_processing_arrays) {
fprintRTF("%c",g_field_separator);
break;
}
if (GetTexMode() == MODE_MATH || GetTexMode() == MODE_DISPLAYMATH) { /* in eqnarray */
fprintRTF("\\tab ");
g_equation_column++;
break;
}
if (g_processing_tabular) { /* in tabular */
actCol++;
fprintRTF("\\cell\\pard\\intbl\\q%c ", colFmt[actCol]);
break;
}
fprintRTF("&");
break;
case '~':
fprintRTF("\\~");
break;
case '^':
CmdSuperscript(0);
break;
case '_':
CmdSubscript(0);
break;
case '-':
if (mode == MODE_MATH || mode == MODE_DISPLAYMATH)
fprintRTF("-");
else {
SetTexMode(MODE_HORIZONTAL);
count = getSameChar('-')+1;
if (count == 1)
fprintRTF("-");
else if (count == 2)
fprintRTF("\\endash ");
else if (count == 3)
fprintRTF("\\emdash ");
else
while (count--) fprintRTF("-");
}
break;
case '|':
if (mode == MODE_MATH || mode == MODE_DISPLAYMATH)
fprintRTF("|");
else
fprintRTF("\\emdash ");
break;
case '\'':
if (mode == MODE_MATH || mode == MODE_DISPLAYMATH)
fprintRTF("'");
else {
SetTexMode(MODE_HORIZONTAL);
count = getSameChar('\'')+1;
if (count == 2)
fprintRTF("\\rdblquote ");
else
while (count--) fprintRTF("\\rquote ");
}
break;
case '`':
SetTexMode(MODE_HORIZONTAL);
count = getSameChar('`')+1;
if (count == 2)
fprintRTF("\\ldblquote ");
else
while (count--) fprintRTF("\\lquote ");
break;
case '\"':
SetTexMode(MODE_HORIZONTAL);
if (GermanMode)
TranslateGerman();
else
fprintRTF("\"");
break;
case '<':
if (mode == MODE_VERTICAL) SetTexMode(MODE_HORIZONTAL);
if (GetTexMode() == MODE_HORIZONTAL){
cNext = getTexChar();
if (cNext == '<') {
if (FrenchMode) { /* not quite right */
skipSpaces();
cNext = getTexChar();
if (cNext == '~')
skipSpaces();
else
ungetTexChar(cNext);
fprintRTF("\\'ab\\~");
} else
fprintRTF("\\'ab");
} else {
ungetTexChar(cNext);
fprintRTF("<");
}
} else
fprintRTF("<");
break;
case '>':
if (mode == MODE_VERTICAL) SetTexMode(MODE_HORIZONTAL);
if (GetTexMode() == MODE_HORIZONTAL){
cNext = getTexChar();
if (cNext == '>')
fprintRTF("\\'bb");
else {
ungetTexChar(cNext);
fprintRTF(">");
}
} else
fprintRTF(">");
break;
case '!':
if (mode == MODE_MATH || mode == MODE_DISPLAYMATH)
fprintRTF("!");
else {
SetTexMode(MODE_HORIZONTAL);
if ((cNext = getTexChar()) && cNext == '`') {
fprintRTF("\\'a1 ");
} else {
fprintRTF("! ");
ungetTexChar(cNext);
}
}
break;
case '?':
SetTexMode(MODE_HORIZONTAL);
if ((cNext = getTexChar()) && cNext == '`') {
fprintRTF("\\'bf ");
} else {
fprintRTF("? ");
ungetTexChar(cNext);
}
break;
case ':':
if (mode == MODE_MATH || mode == MODE_DISPLAYMATH)
fprintRTF(":");
else {
SetTexMode(MODE_HORIZONTAL);
if (FrenchMode)
fprintRTF("\\~:");
else
fprintRTF(":");
}
break;
case '.':
if (mode == MODE_MATH || mode == MODE_DISPLAYMATH)
fprintRTF(".");
else {
SetTexMode(MODE_HORIZONTAL);
fprintRTF(".");
/* try to simulate double spaces after sentences */
cNext = getTexChar();
if (0 && cNext == ' ' && (isalpha((int)cLast) && !isupper((int) cLast)))
fprintRTF(" ");
ungetTexChar(cNext);
}
break;
case '\t':
diagnostics(WARNING, "This should not happen, ignoring \\t");
cThis = ' ';
break;
case '\r':
diagnostics(WARNING, "This should not happen, ignoring \\r");
cThis = ' ';
break;
case '%':
diagnostics(WARNING, "This should not happen, ignoring %%");
cThis = ' ';
break;
case '(':
if (g_processing_fields&&g_escape_parent)
fprintRTF("\\\\(");
else
fprintRTF("(");
break;
case ')':
if (g_processing_fields&&g_escape_parent)
fprintRTF("\\\\)");
else
fprintRTF(")");
break;
case ';':
if (g_field_separator == ';' && g_processing_fields)
fprintRTF("\\\\;");
else
if (FrenchMode)
fprintRTF("\\~;");
else
fprintRTF(";");
break;
case ',':
if (g_field_separator == ',' && g_processing_fields)
fprintRTF("\\\\,");
else
fprintRTF(",");
break;
default:
if (mode == MODE_MATH || mode == MODE_DISPLAYMATH) {
if (('a' <= cThis && cThis <= 'z') || ('A' <= cThis && cThis <= 'Z'))
fprintRTF("{\\i %c}", cThis);
else
fprintRTF("%c", cThis);
} else {
SetTexMode(MODE_HORIZONTAL);
fprintRTF("%c", cThis);
}
break;
}
tabcounter++;
cLast = cThis;
}
RecursionLevel--;
diagnostics(5, "Exiting Convert via exhaustion ret = %d", ret);
}
