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enum.cpp
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enum.cpp
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/*
* sscanf 2.15.1
*
* Version: MPL 1.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is the sscanf 2.0 SA:MP plugin.
*
* The Initial Developer of the Original Code is Alex "Y_Less" Cole.
* Portions created by the Initial Developer are Copyright (c) 2022
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
*
* Cheaterman
* DEntisT
* Emmet_
* karimcambridge
* kalacsparty
* Kirima
* leHeix
* maddinat0r
* Southclaws
* Y_Less
* ziggi
*
* Special Thanks to:
*
* SA:MP Team past, present, and future.
* maddinat0r, for hosting the repo for a very long time.
* Emmet_, for his efforts in maintaining it for almost a year.
*/
#include <string.h>
#include "sscanf.h"
#include "args.h"
#include "utils.h"
#include "specifiers.h"
#include "data.h"
extern logprintf_t
logprintf;
#define SAVE_VALUE(m) \
if (doSave) \
*cptr++ = m
#define SAVE_VALUE_F(m) \
if (doSave) { \
float f = (float)m; \
*cptr++ = amx_ftoc(f); }
// Macros for the regular values.
#define DO(m,n) \
{ m b; \
if (Do##n(&string, &b)) { \
SAVE_VALUE((cell)b); \
break; } \
*input = string; \
return SSCANF_FAIL_RETURN; }
#define DOV(m,n) \
{ m b; \
Do##n(&string, &b); \
SAVE_VALUE((cell)b); }
#define DOF(m,n) \
{ m b; \
if (Do##n(&string, &b)) { \
SAVE_VALUE_F(b) \
break; } \
*input = string; \
return SSCANF_FAIL_RETURN; }
#define OPTIONAL_INVALID \
SscanfWarning(4, "Optional types invalid in enum specifiers, consider using 'E'.")
#define DX(m,n) \
OPTIONAL_INVALID;
#define DXF(m,n) \
OPTIONAL_INVALID;
extern AMX *
g_aCurAMX;
extern E_SSCANF_OPTIONS
gOptions;
bool
DoK(AMX * amx, char ** defaults, char ** input, cell * cptr, bool optional, bool all);
int
DoEnumValues(char * format, char ** input, cell * cptr, bool defaults, struct args_s & args)
{
// If cptr is NULL we never save - regardless of quiet sections.
bool
doSave = cptr != NULL;
char *
string = *input;
// Copied directly from the main loop, just with different macros.
while (*string)
{
if (!*format)
{
// Happy with this return.
*input = string;
return SSCANF_TRUE_RETURN;
}
else if (IsWhitespace(*format))
{
++format;
}
else
{
switch (*format++)
{
case 'L':
DX(bool, L)
// FALLTHROUGH
case 'l':
DOV(bool, L)
break;
case 'B':
DX(int, B)
// FALLTHROUGH
case 'b':
DO(int, B)
case 'N':
DX(int, N)
// FALLTHROUGH
case 'n':
DO(int, N)
case 'C':
DX(char, C)
// FALLTHROUGH
case 'c':
DO(char, C)
case 'I':
case 'D':
DX(int, I)
// FALLTHROUGH
case 'i':
case 'd':
DO(int, I)
case 'H':
case 'X':
DX(int, H)
// FALLTHROUGH
case 'h':
case 'x':
DO(int, H)
case 'M':
DX(unsigned int, M)
// FALLTHROUGH
case 'm':
DO(unsigned int, M)
case 'O':
DX(int, O)
// FALLTHROUGH
case 'o':
DO(int, O)
case 'F':
DXF(double, F)
// FALLTHROUGH
case 'f':
DOF(double, F)
case 'G':
DXF(double, G)
// FALLTHROUGH
case 'g':
DOF(double, G)
case '{':
if (doSave)
{
doSave = false;
}
else if (cptr)
{
// Already in a quiet section.
SscanfWarning(20, "Can't have nestled quiet sections.");
}
continue;
case '}':
if (doSave)
{
SscanfWarning(21, "Not in a quiet section.");
}
else
{
if (cptr)
{
doSave = true;
}
else
{
SscanfWarning(22, "Can't remove quiet in enum.");
}
}
continue;
case 'P':
{
ResetDelimiter();
char *
t = GetMultiType(&format);
if (t) AddDelimiters(t);
else return SSCANF_FAIL_RETURN;
continue;
}
//SscanfWarning("You can't have an optional delimiter.");
// FALLTHROUGH
case 'p':
// 'P' doesn't exist.
// Theoretically, for compatibility, this should be:
// p<delimiter>, but that will break backwards
// compatibility with anyone doing "p<" to use '<' as a
// delimiter (doesn't matter how rare that may be). Also,
// writing deprecation code and both the new and old code
// is more trouble than it's worth, and it's slow.
// UPDATE: I wrote the "GetSingleType" code for 'a' and
// figured out a way to support legacy and new code, while
// still maintaining support for the legacy "p<" separator,
// so here it is:
ResetDelimiter();
AddDelimiter(GetSingleType(&format));
continue;
case 'K':
OPTIONAL_INVALID;
// FALLTHROUGH
case 'k':
//DOF(double, K)
if (defaults && !(gOptions & OLD_DEFAULT_KUSTOM))
{
GetMultiType(&format);
if (doSave)
{
int
b;
DoI(&string, &b);
*cptr++ = b;
}
else
{
int
b;
DoI(&string, &b);
}
*(format - 1) = '>';
break;
}
else if (doSave)
{
if (DoK(g_aCurAMX, &format, &string, cptr, false, false))
{
*(format - 1) = '>';
++cptr;
break;
}
}
else
{
if (DoK(g_aCurAMX, &format, &string, NULL, false, false))
{
*(format - 1) = '>';
break;
}
}
*input = string;
return SSCANF_FAIL_RETURN;
case 'S':
OPTIONAL_INVALID;
// FALLTHROUGH
case 's':
{
// Get the length.
int
lole = GetLength(&format, args);
if (!lole)
{
return SSCANF_FAIL_RETURN;
}
char *
dest;
DoS(&string, &dest, lole, IsEnd(*format));
// Send the string to PAWN.
if (doSave)
{
// Save the string.
amx_SetString(cptr, dest, 0, 0, lole);
// Increase the pointer by the MAXIMUM length of
// the string - that's how enum strings work.
cptr += lole;
}
}
break;
case 'Z':
OPTIONAL_INVALID;
// FALLTHROUGH
case 'z':
{
// Get the length.
int
lole = GetLength(&format, args);
if (!lole)
{
return SSCANF_FAIL_RETURN;
}
char *
dest;
DoS(&string, &dest, lole, IsEnd(*format));
// Send the string to PAWN.
if (doSave)
{
// Save the string.
amx_SetString(cptr, dest, 1, 0, lole);
// Increase the pointer by the MAXIMUM length of
// the string - that's how enum strings work.
cptr += lole;
}
}
break;
case 'U':
DX(int, U)
// FALLTHROUGH
case 'u':
if (*format == '[')
{
SscanfWarning(54, "User arrays are not supported in enums.");
SkipLength(&format);
}
#define DoU(m,n) DoU(m,n,0)
if (defaults && !(gOptions & OLD_DEFAULT_NAME))
{
DOV(int, I)
}
else
{
DOV(int, U)
}
#undef DoU
break;
case 'Q':
DX(int, Q)
// FALLTHROUGH
case 'q':
if (*format == '[')
{
SscanfWarning(54, "User arrays are not supported in enums.");
SkipLength(&format);
}
#define DoQ(m,n) DoQ(m,n,0)
if (defaults && !(gOptions & OLD_DEFAULT_NAME))
{
DOV(int, I)
}
else
{
DOV(int, Q)
}
#undef DoQ
break;
case 'R':
DX(int, R)
// FALLTHROUGH
case 'r':
if (*format == '[')
{
SscanfWarning(54, "User arrays are not supported in enums.");
SkipLength(&format);
}
#define DoR(m,n) DoR(m,n,0)
if (defaults && !(gOptions & OLD_DEFAULT_NAME))
{
DOV(int, I)
}
else
{
DOV(int, R)
}
#undef DoR
break;
case 'A':
case 'a':
SscanfError(23, "Arrays are not supported in enums.");
*input = string;
return SSCANF_FAIL_RETURN;
case 'E':
case 'e':
SscanfError(67, "Enums are not supported in enums.");
*input = string;
return SSCANF_FAIL_RETURN;
case '\'':
// Find the end of the literal.
{
char
* str = format,
* write = format;
bool
escape = false;
while (!IsEnd(*str) && (escape || *str != '\''))
{
if (*str == '\\')
{
if (escape)
{
// "\\" - Go back a step to write this
// character over the last character (which
// just happens to be the same character).
--write;
}
escape = !escape;
}
else
{
if (*str == '\'')
{
// Overwrite the escape character with the
// quote character. Must have been
// preceeded by a slash or it wouldn't have
// got to here in the loop.
--write;
}
escape = false;
}
// Copy the string over itself to get rid of excess
// escape characters.
// Not sure if it's faster in the average case to
// always do the copy or check if it's needed.
// This write is always safe as it makes the string
// shorter, so we'll never run out of space. It
// will also not overwrite the original string.
*write++ = *str++;
}
if (*str == '\'')
{
// Correct end. Make a shorter string to search
// for.
*write = '\0';
// Find the current section of format in string.
char *
find = strstr(string, format);
if (!find)
{
// Didn't find the string.
*input = string;
SetErrorCode(1003);
return SSCANF_FAIL_RETURN;
}
// Found the string. Update the current string
// position to the length of the search term
// further along from the start of the term. Use
// "write" here as we want the escaped string
// length.
string = find + (write - format);
// Move to after the end of the search string. Use
// "str" here as we want the unescaped string
// length.
format = str + 1;
}
else
{
SscanfWarning(24, "Unclosed string literal.");
char *
find = strstr(string, format);
if (!find)
{
*input = string;
SetErrorCode(1003);
return SSCANF_FAIL_RETURN;
}
string = find + (write - format);
format = str;
}
}
break;
case '?':
SscanfError(27, "Options are not supported in enums.");
return SSCANF_FAIL_RETURN;
case '!':
SscanfError(71, "End of text is not supported in enums.");
return SSCANF_FAIL_RETURN;
case '%':
SscanfWarning(25, "sscanf specifiers do not require '%' before them.");
continue;
case '-':
{
int
len = 1;
switch (*format++)
{
case 'i':
case 'f':
case 'l':
case 'b':
case 'n':
case 'c':
case 'd':
case 'h':
case 'm':
case 'x':
case 'o':
case 'g':
break;
case 'I':
case 'F':
case 'L':
case 'B':
case 'N':
case 'C':
case 'D':
case 'H':
case 'M':
case 'X':
case 'O':
case 'G':
OPTIONAL_INVALID;
break;
case 'K':
OPTIONAL_INVALID;
case 'k':
GetMultiType(&format);
break;
case 'P':
case 'p':
SscanfWarning(52, "A minus delimiter makes no sense.");
len = 0;
break;
case '{':
case '}':
SscanfWarning(53, "A minus quiet section makes no sense.");
len = 0;
break;
case 'U':
case 'Q':
case 'R':
OPTIONAL_INVALID;
case 'u':
case 'q':
case 'r':
if (*format == '[')
{
len = GetLength(&format, args);
}
break;
case 'A':
OPTIONAL_INVALID;
case 'a':
len = GetLength(&format, args);
break;
case 'E':
OPTIONAL_INVALID;
case 'e':
SscanfError(67, "Enums are not supported in enums.");
*input = string;
return SSCANF_FAIL_RETURN;
case 'Z':
OPTIONAL_INVALID;
// FALLTHROUGH
case 'z':
len = GetLength(&format, args);
break;
case 'S':
OPTIONAL_INVALID;
// FALLTHROUGH
case 's':
len = GetLength(&format, args);
break;
case '?':
SscanfWarning(51, "A minus option makes no sense.");
len = 0;
break;
case '!':
SscanfWarning(72, "A minus end of text makes no sense.");
len = 0;
break;
case '%':
SscanfWarning(25, "sscanf specifiers do not require '%' before them.");
len = 0;
break;
case '-':
SscanfWarning(50, "A minus minus makes no sense.");
len = 0;
break;
default:
SscanfWarning(9, "Unknown format specifier '%c', skipping.", *(format - 1));
len = 0;
break;
}
if (doSave)
{
cptr += len;
}
}
break;
default:
SscanfWarning(9, "Unknown format specifier '%c', skipping.", *(format - 1));
continue;
}
// Loop cleanup - only skip one spacer so that we can detect
// multiple explicit delimiters in a row, for example:
//
// hi there
//
// is NOT multiple explicit delimiters in a row (they're
// whitespace). This however is:
//
// hi , , , there
//
SkipOneSpacer(&string);
}
}
// Save the end of the string.
*input = string;
if (*format)
{
if (*format == '}' && IsEnd(*(format + 1)))
{
return SSCANF_TRUE_RETURN;
}
// Ran out of values - check if this is an optional array at a higher
// level.
return SSCANF_CONT_RETURN;
}
return SSCANF_TRUE_RETURN;
}
bool
DoE(char ** defaults, char ** input, struct args_s & args, bool optional, bool doSave)
{
// First, get the type of the array.
char *
type = GetMultiType(defaults);
cell *
cptr = NULL;
args.Mark();
if (!type)
{
return false;
}
if (optional)
{
// Optional parameters - just collect the data for
// now and use it later.
if (**defaults == '(')
{
++(*defaults);
SkipWhitespace(defaults);
// Got the start of the values.
char *
opts = *defaults;
// Skip the defaults for now, we don't know the length yet.
bool
escape = false;
while (**defaults && (escape || **defaults != ')'))
{
if (**defaults == '\\')
{
escape = !escape;
}
else
{
escape = false;
}
++(*defaults);
}
if (**defaults)
{
if (opts == *defaults)
{
// No defaults found.
SscanfWarning(10, "Empty default values.");
optional = false;
}
// Found a valid end. Make it null for
// later array getting (easy to detect a
// null end and we'll never need to
// backtrack to here in the specifiers).
**defaults = '\0';
++(*defaults);
}
else
{
SscanfWarning(11, "Unclosed default value.");
}
if (optional)
{
// Optional parameters are always separated by commans, not
// whatever the coder may choose.
TempDelimiter(",)");
// We need to copy the old save value for optional parts. If
// we don't and save gets set to false in the middle of the
// enum then when the code is called for a second time for the
// real values then save will already be false and they won't
// get saved.
if (doSave)
{
char *
tmp = opts;
DoEnumValues(type, &tmp, NULL, true, args);
cptr = args.Next();
args.Restore();
}
// Do this twice. Once to get the lengths, once for the data.
switch (DoEnumValues(type, &opts, cptr, true, args))
{
case SSCANF_TRUE_RETURN:
break;
case SSCANF_CONT_RETURN:
SscanfError(26, "Insufficient default values.");
// FALLTHROUGH
default:
RestoreDelimiter();
return false;
}
RestoreDelimiter();
if (cptr)
args.Next();
}
}
else
{
SscanfWarning(12, "No default value found.");
optional = false;
}
}
if (input)
{
if (doSave && !cptr)
{
args.Mark();
char *
tmp = *input;
DoEnumValues(type, &tmp, NULL, false, args);
cptr = args.Next();
}
args.Restore();
switch (DoEnumValues(type, input, cptr, false, args))
{
case SSCANF_TRUE_RETURN:
if (cptr)
args.Next();
return true;
case SSCANF_CONT_RETURN:
if (optional)
{
if (cptr)
args.Next();
return true;
}
// FALLTHROUGH
default:
return false;
}
}
return true;
}