--- src/basemath/buch2.c.orig 2024-02-04 07:41:28.000000000 -0700
+++ src/basemath/buch2.c 2024-02-26 15:26:35.433656087 -0700
@@ -1140,7 +1140,7 @@ getfu(GEN nf, GEN *ptA, GEN *ptU, long p
}
static void
-err_units() { pari_err_PREC("makeunits [cannot get units, use bnfinit(,1)]"); }
+err_units(void) { pari_err_PREC("makeunits [cannot get units, use bnfinit(,1)]"); }
/* bound for log2 |sigma(u)|, sigma complex embedding, u fundamental unit
* attached to bnf_get_logfu */
--- src/basemath/mftrace.c.orig 2024-02-06 07:39:51.000000000 -0700
+++ src/basemath/mftrace.c 2024-02-26 15:26:35.435656060 -0700
@@ -631,7 +631,7 @@ mfcharGL(GEN G, GEN L)
return mkvec4(G, L, o, polcyclo(ord,vt));
}
static GEN
-mfchartrivial()
+mfchartrivial(void)
{ return mfcharGL(znstar0(gen_1,1), cgetg(1,t_COL)); }
/* convert a generic character into an 'mfchar' */
static GEN
@@ -1741,7 +1741,7 @@ mfcoef(GEN F, long n)
}
static GEN
-paramconst() { return tagparams(t_MF_CONST, mkNK(1,0,mfchartrivial())); }
+paramconst(void) { return tagparams(t_MF_CONST, mkNK(1,0,mfchartrivial())); }
static GEN
mftrivial(void) { retmkvec2(paramconst(), cgetg(1,t_VEC)); }
static GEN
--- src/basemath/modsym.c.orig 2024-02-04 07:41:28.000000000 -0700
+++ src/basemath/modsym.c 2024-02-26 15:26:35.435656060 -0700
@@ -1406,11 +1406,11 @@ indices_backward(GEN W, GEN C)
/*[0,-1;1,-1]*/
static GEN
-mkTAU()
+mkTAU(void)
{ return mkmat22(gen_0,gen_m1, gen_1,gen_m1); }
/* S */
static GEN
-mkS()
+mkS(void)
{ return mkmat22(gen_0,gen_1, gen_m1,gen_0); }
/* N = integer > 1. Returns data describing Delta_0 = Z[P^1(Q)]_0 seen as
* a Gamma_0(N) - module. */
--- src/modules/mpqs.c.orig 2024-02-04 07:41:29.000000000 -0700
+++ src/modules/mpqs.c 2024-02-26 15:26:39.328603226 -0700
@@ -1501,7 +1501,7 @@ mpqs_solve_linear_system(mpqs_handle_t *
/** MAIN ENTRY POINT AND DRIVER ROUTINE **/
/*********************************************************************/
static void
-toolarge()
+toolarge(void)
{ pari_warn(warner, "MPQS: number too big to be factored with MPQS,\n\tgiving up"); }
/* Factors N using the self-initializing multipolynomial quadratic sieve