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crecord: call prevsibling() and nextsibling() directly...
crecord: call prevsibling() and nextsibling() directly The 3 classes for items used in crecord (uiheader, uihunk, uihunkline) all have prevsibling() and nextsibling() methods. The two methods are used to get the previous/next item of the same type of the same parent element as the current one: when `a` is a uihunkline instance, a.nextsibling() returns the next line in this hunk (or None, if `a` is the last line). There are also two similar methods: previtem() and nextitem(). When called with constrainlevel=True (the default) they simply returned the result of prevsibling()/nextsibling(). Only when called with constrainlevel=False they did something different: they returned previous/next item regardless of its type (so if `a` is the last line in a hunk, a.nextitem(constrainlevel=False) could return the next hunk or the next file -- something that is not a line). Let's simplify this logic and make code call -sibling() methods when only siblings are needed and -item() methods when any item would do, and then remove the constrainlevel argument from previtem() and nextitem().
Gregory Szorc - - Load All Authors

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r29019:210bb28c stable
r29130:ed2a3818 default
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exewrapper.c
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/*
exewrapper.c - wrapper for calling a python script on Windows
Copyright 2012 Adrian Buehlmann <adrian@cadifra.com> and others
This software may be used and distributed according to the terms of the
GNU General Public License version 2 or any later version.
*/
#include <stdio.h>
#include <windows.h>
#include "hgpythonlib.h"
#ifdef __GNUC__
int strcat_s(char *d, size_t n, const char *s)
{
return !strncat(d, s, n);
}
int strcpy_s(char *d, size_t n, const char *s)
{
return !strncpy(d, s, n);
}
#endif
static char pyscript[MAX_PATH + 10];
static char pyhome[MAX_PATH + 10];
static char envpyhome[MAX_PATH + 10];
static char pydllfile[MAX_PATH + 10];
int main(int argc, char *argv[])
{
char *p;
int ret;
int i;
int n;
char **pyargv;
WIN32_FIND_DATA fdata;
HANDLE hfind;
const char *err;
HMODULE pydll;
void (__cdecl *Py_SetPythonHome)(char *home);
int (__cdecl *Py_Main)(int argc, char *argv[]);
if (GetModuleFileName(NULL, pyscript, sizeof(pyscript)) == 0)
{
err = "GetModuleFileName failed";
goto bail;
}
p = strrchr(pyscript, '.');
if (p == NULL) {
err = "malformed module filename";
goto bail;
}
*p = 0; /* cut trailing ".exe" */
strcpy_s(pyhome, sizeof(pyhome), pyscript);
hfind = FindFirstFile(pyscript, &fdata);
if (hfind != INVALID_HANDLE_VALUE) {
/* pyscript exists, close handle */
FindClose(hfind);
} else {
/* file pyscript isn't there, take <pyscript>exe.py */
strcat_s(pyscript, sizeof(pyscript), "exe.py");
}
pydll = NULL;
/*
We first check, that environment variable PYTHONHOME is *not* set.
This just mimicks the behavior of the regular python.exe, which uses
PYTHONHOME to find its installation directory (if it has been set).
Note: Users of HackableMercurial are expected to *not* set PYTHONHOME!
*/
if (GetEnvironmentVariable("PYTHONHOME", envpyhome,
sizeof(envpyhome)) == 0)
{
/*
Environment var PYTHONHOME is *not* set. Let's see if we are
running inside a HackableMercurial.
*/
p = strrchr(pyhome, '\\');
if (p == NULL) {
err = "can't find backslash in module filename";
goto bail;
}
*p = 0; /* cut at directory */
/* check for private Python of HackableMercurial */
strcat_s(pyhome, sizeof(pyhome), "\\hg-python");
hfind = FindFirstFile(pyhome, &fdata);
if (hfind != INVALID_HANDLE_VALUE) {
/* path pyhome exists, let's use it */
FindClose(hfind);
strcpy_s(pydllfile, sizeof(pydllfile), pyhome);
strcat_s(pydllfile, sizeof(pydllfile),
"\\" HGPYTHONLIB ".dll");
pydll = LoadLibrary(pydllfile);
if (pydll == NULL) {
err = "failed to load private Python DLL "
HGPYTHONLIB ".dll";
goto bail;
}
Py_SetPythonHome = (void*)GetProcAddress(pydll,
"Py_SetPythonHome");
if (Py_SetPythonHome == NULL) {
err = "failed to get Py_SetPythonHome";
goto bail;
}
Py_SetPythonHome(pyhome);
}
}
if (pydll == NULL) {
pydll = LoadLibrary(HGPYTHONLIB ".dll");
if (pydll == NULL) {
err = "failed to load Python DLL " HGPYTHONLIB ".dll";
goto bail;
}
}
Py_Main = (void*)GetProcAddress(pydll, "Py_Main");
if (Py_Main == NULL) {
err = "failed to get Py_Main";
goto bail;
}
/*
Only add the pyscript to the args, if it's not already there. It may
already be there, if the script spawned a child process of itself, in
the same way as it got called, that is, with the pyscript already in
place. So we optionally accept the pyscript as the first argument
(argv[1]), letting our exe taking the role of the python interpreter.
*/
if (argc >= 2 && strcmp(argv[1], pyscript) == 0) {
/*
pyscript is already in the args, so there is no need to copy
the args and we can directly call the python interpreter with
the original args.
*/
return Py_Main(argc, argv);
}
/*
Start assembling the args for the Python interpreter call. We put the
name of our exe (argv[0]) in the position where the python.exe
canonically is, and insert the pyscript next.
*/
pyargv = malloc((argc + 5) * sizeof(char*));
if (pyargv == NULL) {
err = "not enough memory";
goto bail;
}
n = 0;
pyargv[n++] = argv[0];
pyargv[n++] = pyscript;
/* copy remaining args from the command line */
for (i = 1; i < argc; i++)
pyargv[n++] = argv[i];
/* argv[argc] is guaranteed to be NULL, so we forward that guarantee */
pyargv[n] = NULL;
ret = Py_Main(n, pyargv); /* The Python interpreter call */
free(pyargv);
return ret;
bail:
fprintf(stderr, "abort: %s\n", err);
return 255;
}