#include "imperl.h"
+#ifndef SV_COW_DROP_PV
+#define SV_COW_DROP_PV
+#endif
+
/*
Context object management
return SvPVX(sv);
}
+static void *
+calloc_temp(pTHX_ size_t size) {
+ void *result = malloc_temp(aTHX_ size);
+ memset(result, 0, size);
+
+ return result;
+}
+
+/* for use with the T_AVARRAY typemap */
+#define doublePtr(size) ((double *)calloc_temp(aTHX_ sizeof(double) * (size)))
+#define SvDouble(sv, pname) (SvNV(sv))
+
+#define intPtr(size) ((int *)calloc_temp(aTHX_ sizeof(int) * (size)))
+#define SvInt(sv, pname) (SvIV(sv))
+
+#define i_img_dimPtr(size) ((i_img_dim *)calloc_temp(aTHX_ sizeof(i_img_dim) * (size)))
+#define SvI_img_dim(sv, pname) (SvIV(sv))
+
+#define i_colorPtr(size) ((i_color *)calloc_temp(aTHX_ sizeof(i_color *) * (size)))
+
+#define SvI_color(sv, pname) S_sv_to_i_color(aTHX_ sv, pname)
+
+static i_color
+S_sv_to_i_color(pTHX_ SV *sv, const char *pname) {
+ if (!sv_derived_from(sv, "Imager::Color")) {
+ croak("%s: not a color object", pname);
+ }
+ return *INT2PTR(i_color *, SvIV((SV *)SvRV(sv)));
+}
+
/* These functions are all shared - then comes platform dependant code */
static int getstr(void *hv_t,char *key,char **store) {
dTHX;
UTIL_table_t i_UTIL_table={getstr,getint,getdouble,getvoid,getobj};
-void my_SvREFCNT_dec(void *p) {
- dTHX;
- SvREFCNT_dec((SV*)p);
+static void
+free_buffer(void *p) {
+ myfree(p);
}
if (SvOK(cbd->closecb)) {
dSP;
I32 count;
- SV *sv;
ENTER;
SAVETMPS;
SPAGAIN;
- sv = POPs;
- success = SvTRUE(sv);
+ if (count) {
+ SV *sv = POPs;
+ success = SvTRUE(sv);
+ }
+ else
+ success = 0;
PUTBACK;
FREETMPS;
myfree(cbd);
}
+static bool
+im_SvREFSCALAR(SV *sv) {
+ svtype type = SvTYPE(sv);
+ return type == SVt_PV || type == SVt_PVIV || type == SVt_PVNV
+ || type == SVt_PVMG || type == SVt_IV || type == SVt_NV
+ || type == SVt_PVLV || type == SVt_REGEXP;
+}
+
static i_io_glue_t *
do_io_new_buffer(pTHX_ SV *data_sv) {
const char *data;
+ char *data_copy;
STRLEN length;
+ SV *sv;
+
+ SvGETMAGIC(data_sv);
+ if (SvROK(data_sv)) {
+ if (im_SvREFSCALAR(data_sv)) {
+ sv = SvRV(data_sv);
+ }
+ else {
+ i_push_error(0, "data is not a scalar or a reference to scalar");
+ return NULL;
+ }
+ }
+ else {
+ sv = data_sv;
+ }
- data = SvPVbyte(data_sv, length);
- SvREFCNT_inc(data_sv);
- return io_new_buffer(data, length, my_SvREFCNT_dec, data_sv);
+ /* previously this would keep the SV around, but this is unsafe in
+ many ways, so always copy the bytes */
+ data = SvPVbyte(sv, length);
+ data_copy = mymalloc(length);
+ memcpy(data_copy, data, length);
+ return io_new_buffer(data_copy, length, free_buffer, data_copy);
}
static const char *
#define IIM_new i_img_8_new
#define IIM_DESTROY i_img_destroy
+typedef int SysRet;
#ifdef IMEXIF_ENABLE
#define i_exif_enabled() 1
io_new_buffer(data_sv)
SV *data_sv
CODE:
+ i_clear_error();
RETVAL = do_io_new_buffer(aTHX_ data_sv);
+ if (!RETVAL)
+ XSRETURN(0);
OUTPUT:
RETVAL
SV *readcb;
SV *seekcb;
SV *closecb;
- int maxwrite;
CODE:
RETVAL = do_io_new_cb(aTHX_ writecb, readcb, seekcb, closecb);
OUTPUT:
io_new_buffer(class, data_sv)
SV *data_sv
CODE:
+ i_clear_error();
RETVAL = do_io_new_buffer(aTHX_ data_sv);
+ if (!RETVAL)
+ XSRETURN(0);
OUTPUT:
RETVAL
PPCODE:
if (size <= 0)
croak("size negative in call to i_io_raw_read()");
- /* prevent an undefined value warning if they supplied an
- undef buffer.
- Orginally conditional on !SvOK(), but this will prevent the
- downgrade from croaking */
- sv_setpvn(buffer_sv, "", 0);
-#ifdef SvUTF8
- if (SvUTF8(buffer_sv))
- sv_utf8_downgrade(buffer_sv, FALSE);
-#endif
+ if (SvTHINKFIRST(buffer_sv))
+ sv_force_normal_flags(buffer_sv, SV_COW_DROP_PV);
+ SvUPGRADE(buffer_sv, SVt_PV);
buffer = SvGROW(buffer_sv, size+1);
result = i_io_raw_read(ig, buffer, size);
if (result >= 0) {
PPCODE:
if (size <= 0)
croak("size negative in call to i_io_read()");
- /* prevent an undefined value warning if they supplied an
- undef buffer.
- Orginally conditional on !SvOK(), but this will prevent the
- downgrade from croaking */
- sv_setpvn(buffer_sv, "", 0);
-#ifdef SvUTF8
- if (SvUTF8(buffer_sv))
- sv_utf8_downgrade(buffer_sv, FALSE);
-#endif
+ if (SvTHINKFIRST(buffer_sv))
+ sv_force_normal_flags(buffer_sv, SV_COW_DROP_PV);
+ SvUPGRADE(buffer_sv, SVt_PV);
buffer = SvGROW(buffer_sv, size+1);
result = i_io_read(ig, buffer, size);
if (result >= 0) {
void
-i_bezier_multi(im,xc,yc,val)
+i_bezier_multi(im,x,y,val)
Imager::ImgRaw im
- Imager::Color val
- PREINIT:
- double *x,*y;
- int len;
- AV *av1;
- AV *av2;
- SV *sv1;
- SV *sv2;
- int i;
- PPCODE:
- ICL_info(val);
- if (!SvROK(ST(1))) croak("Imager: Parameter 1 to i_bezier_multi must be a reference to an array\n");
- if (SvTYPE(SvRV(ST(1))) != SVt_PVAV) croak("Imager: Parameter 1 to i_bezier_multi must be a reference to an array\n");
- if (!SvROK(ST(2))) croak("Imager: Parameter 2 to i_bezier_multi must be a reference to an array\n");
- if (SvTYPE(SvRV(ST(2))) != SVt_PVAV) croak("Imager: Parameter 2 to i_bezier_multi must be a reference to an array\n");
- av1=(AV*)SvRV(ST(1));
- av2=(AV*)SvRV(ST(2));
- if (av_len(av1) != av_len(av2)) croak("Imager: x and y arrays to i_bezier_multi must be equal length\n");
- len=av_len(av1)+1;
- x=mymalloc( len*sizeof(double) );
- y=mymalloc( len*sizeof(double) );
- for(i=0;i<len;i++) {
- sv1=(*(av_fetch(av1,i,0)));
- sv2=(*(av_fetch(av2,i,0)));
- x[i]=(double)SvNV(sv1);
- y[i]=(double)SvNV(sv2);
- }
- i_bezier_multi(im,len,x,y,val);
- myfree(x);
- myfree(y);
-
+ double *x
+ double *y
+ Imager::Color val
+ PREINIT:
+ STRLEN size_x;
+ STRLEN size_y;
+ PPCODE:
+ if (size_x != size_y)
+ croak("Imager: x and y arrays to i_bezier_multi must be equal length\n");
+ i_bezier_multi(im,size_x,x,y,val);
int
-i_poly_aa(im,xc,yc,val)
+i_poly_aa(im,x,y,val)
Imager::ImgRaw im
- Imager::Color val
- PREINIT:
- double *x,*y;
- int len;
- AV *av1;
- AV *av2;
- SV *sv1;
- SV *sv2;
- int i;
- CODE:
- ICL_info(val);
- if (!SvROK(ST(1))) croak("Imager: Parameter 1 to i_poly_aa must be a reference to an array\n");
- if (SvTYPE(SvRV(ST(1))) != SVt_PVAV) croak("Imager: Parameter 1 to i_poly_aa must be a reference to an array\n");
- if (!SvROK(ST(2))) croak("Imager: Parameter 1 to i_poly_aa must be a reference to an array\n");
- if (SvTYPE(SvRV(ST(2))) != SVt_PVAV) croak("Imager: Parameter 1 to i_poly_aa must be a reference to an array\n");
- av1=(AV*)SvRV(ST(1));
- av2=(AV*)SvRV(ST(2));
- if (av_len(av1) != av_len(av2)) croak("Imager: x and y arrays to i_poly_aa must be equal length\n");
- len=av_len(av1)+1;
- x=mymalloc( len*sizeof(double) );
- y=mymalloc( len*sizeof(double) );
- for(i=0;i<len;i++) {
- sv1=(*(av_fetch(av1,i,0)));
- sv2=(*(av_fetch(av2,i,0)));
- x[i]=(double)SvNV(sv1);
- y[i]=(double)SvNV(sv2);
- }
- RETVAL = i_poly_aa(im,len,x,y,val);
- myfree(x);
- myfree(y);
- OUTPUT:
- RETVAL
+ double *x
+ double *y
+ Imager::Color val
+ PREINIT:
+ STRLEN size_x;
+ STRLEN size_y;
+ CODE:
+ if (size_x != size_y)
+ croak("Imager: x and y arrays to i_poly_aa must be equal length\n");
+ RETVAL = i_poly_aa(im, size_x, x, y, val);
+ OUTPUT:
+ RETVAL
int
-i_poly_aa_cfill(im,xc,yc,fill)
+i_poly_aa_cfill(im, x, y, fill)
Imager::ImgRaw im
- Imager::FillHandle fill
- PREINIT:
- double *x,*y;
- int len;
- AV *av1;
- AV *av2;
- SV *sv1;
- SV *sv2;
- int i;
- CODE:
- if (!SvROK(ST(1))) croak("Imager: Parameter 1 to i_poly_aa_cfill must be a reference to an array\n");
- if (SvTYPE(SvRV(ST(1))) != SVt_PVAV) croak("Imager: Parameter 1 to i_poly_aa_cfill must be a reference to an array\n");
- if (!SvROK(ST(2))) croak("Imager: Parameter 1 to i_poly_aa_cfill must be a reference to an array\n");
- if (SvTYPE(SvRV(ST(2))) != SVt_PVAV) croak("Imager: Parameter 1 to i_poly_aa_cfill must be a reference to an array\n");
- av1=(AV*)SvRV(ST(1));
- av2=(AV*)SvRV(ST(2));
- if (av_len(av1) != av_len(av2)) croak("Imager: x and y arrays to i_poly_aa_cfill must be equal length\n");
- len=av_len(av1)+1;
- x=mymalloc( len*sizeof(double) );
- y=mymalloc( len*sizeof(double) );
- for(i=0;i<len;i++) {
- sv1=(*(av_fetch(av1,i,0)));
- sv2=(*(av_fetch(av2,i,0)));
- x[i]=(double)SvNV(sv1);
- y[i]=(double)SvNV(sv2);
- }
- RETVAL = i_poly_aa_cfill(im,len,x,y,fill);
- myfree(x);
- myfree(y);
- OUTPUT:
- RETVAL
-
-
+ double *x
+ double *y
+ Imager::FillHandle fill
+ PREINIT:
+ STRLEN size_x;
+ STRLEN size_y;
+ CODE:
+ if (size_x != size_y)
+ croak("Imager: x and y arrays to i_poly_aa_cfill must be equal length\n");
+ RETVAL = i_poly_aa_cfill(im, size_x, x, y, fill);
+ OUTPUT:
+ RETVAL
undef_int
i_flood_fill(im,seedx,seedy,dcol)
RETVAL
Imager::ImgRaw
-i_matrix_transform(im, xsize, ysize, matrix, ...)
+i_matrix_transform(im, xsize, ysize, matrix_av, ...)
Imager::ImgRaw im
- i_img_dim xsize
- i_img_dim ysize
- PREINIT:
- double matrix[9];
- AV *av;
- IV len;
- SV *sv1;
- int i;
- i_color *backp = NULL;
- i_fcolor *fbackp = NULL;
- CODE:
- if (!SvROK(ST(3)) || SvTYPE(SvRV(ST(3))) != SVt_PVAV)
- croak("i_matrix_transform: parameter 4 must be an array ref\n");
- av=(AV*)SvRV(ST(3));
- len=av_len(av)+1;
- if (len > 9)
- len = 9;
- for (i = 0; i < len; ++i) {
- sv1=(*(av_fetch(av,i,0)));
- matrix[i] = SvNV(sv1);
- }
- for (; i < 9; ++i)
- matrix[i] = 0;
- /* extract the bg colors if any */
- /* yes, this is kind of strange */
- for (i = 4; i < items; ++i) {
- sv1 = ST(i);
- if (sv_derived_from(sv1, "Imager::Color")) {
- IV tmp = SvIV((SV*)SvRV(sv1));
- backp = INT2PTR(i_color *, tmp);
- }
- else if (sv_derived_from(sv1, "Imager::Color::Float")) {
- IV tmp = SvIV((SV*)SvRV(sv1));
- fbackp = INT2PTR(i_fcolor *, tmp);
- }
- }
- RETVAL = i_matrix_transform_bg(im, xsize, ysize, matrix, backp, fbackp);
- OUTPUT:
- RETVAL
+ i_img_dim xsize
+ i_img_dim ysize
+ AV *matrix_av
+ PREINIT:
+ double matrix[9];
+ STRLEN len;
+ SV *sv1;
+ int i;
+ i_color *backp = NULL;
+ i_fcolor *fbackp = NULL;
+ CODE:
+ len=av_len(matrix_av)+1;
+ if (len > 9)
+ len = 9;
+ for (i = 0; i < len; ++i) {
+ sv1=(*(av_fetch(matrix_av,i,0)));
+ matrix[i] = SvNV(sv1);
+ }
+ for (; i < 9; ++i)
+ matrix[i] = 0;
+ /* extract the bg colors if any */
+ /* yes, this is kind of strange */
+ for (i = 4; i < items; ++i) {
+ sv1 = ST(i);
+ if (sv_derived_from(sv1, "Imager::Color")) {
+ IV tmp = SvIV((SV*)SvRV(sv1));
+ backp = INT2PTR(i_color *, tmp);
+ }
+ else if (sv_derived_from(sv1, "Imager::Color::Float")) {
+ IV tmp = SvIV((SV*)SvRV(sv1));
+ fbackp = INT2PTR(i_fcolor *, tmp);
+ }
+ }
+ RETVAL = i_matrix_transform_bg(im, xsize, ysize, matrix, backp, fbackp);
+ OUTPUT:
+ RETVAL
undef_int
i_gaussian(im,stdev)
undef_int
-i_map(im, pmaps)
+i_map(im, pmaps_av)
Imager::ImgRaw im
- PREINIT:
- unsigned int mask = 0;
- AV *avmain;
- AV *avsub;
- SV **temp;
- int len;
- int i, j;
- unsigned char (*maps)[256];
- CODE:
- if (!SvROK(ST(1)) || SvTYPE(SvRV(ST(1))) != SVt_PVAV)
- croak("i_map: parameter 2 must be an arrayref\n");
- avmain = (AV*)SvRV(ST(1));
- len = av_len(avmain)+1;
- if (im->channels < len) len = im->channels;
-
- maps = mymalloc( len * sizeof(unsigned char [256]) );
-
- for (j=0; j<len ; j++) {
- temp = av_fetch(avmain, j, 0);
- if (temp && SvROK(*temp) && (SvTYPE(SvRV(*temp)) == SVt_PVAV) ) {
- avsub = (AV*)SvRV(*temp);
- if(av_len(avsub) != 255) continue;
- mask |= 1<<j;
- for (i=0; i<256 ; i++) {
- int val;
- temp = av_fetch(avsub, i, 0);
- val = temp ? SvIV(*temp) : 0;
- if (val<0) val = 0;
- if (val>255) val = 255;
- maps[j][i] = val;
- }
- }
- }
- i_map(im, maps, mask);
- myfree(maps);
- RETVAL = 1;
- OUTPUT:
- RETVAL
-
-
+ AV *pmaps_av
+ PREINIT:
+ unsigned int mask = 0;
+ AV *avsub;
+ SV **temp;
+ int len;
+ int i, j;
+ unsigned char (*maps)[256];
+ CODE:
+ len = av_len(pmaps_av)+1;
+ if (im->channels < len)
+ len = im->channels;
+ maps = mymalloc( len * sizeof(unsigned char [256]) );
+ for (j=0; j<len ; j++) {
+ temp = av_fetch(pmaps_av, j, 0);
+ if (temp && SvROK(*temp) && (SvTYPE(SvRV(*temp)) == SVt_PVAV) ) {
+ avsub = (AV*)SvRV(*temp);
+ if(av_len(avsub) != 255)
+ continue;
+ mask |= 1<<j;
+ for (i=0; i<256 ; i++) {
+ int val;
+ temp = av_fetch(avsub, i, 0);
+ val = temp ? SvIV(*temp) : 0;
+ if (val<0) val = 0;
+ if (val>255) val = 255;
+ maps[j][i] = val;
+ }
+ }
+ }
+ i_map(im, maps, mask);
+ myfree(maps);
+ RETVAL = 1;
+ OUTPUT:
+ RETVAL
float
i_img_diff(im1,im2)
void
-i_transform(im,opx,opy,parm)
+i_transform(im, opx, opy, parm)
Imager::ImgRaw im
+ int *opx
+ int *opy
+ double *parm
PREINIT:
- double* parm;
- int *opx;
- int *opy;
- int opxl;
- int opyl;
- int parmlen;
- AV* av;
- SV* sv1;
- int i;
+ STRLEN size_opx, size_opy, size_parm;
i_img *result;
PPCODE:
- if (!SvROK(ST(1))) croak("Imager: Parameter 1 must be a reference to an array\n");
- if (!SvROK(ST(2))) croak("Imager: Parameter 2 must be a reference to an array\n");
- if (!SvROK(ST(3))) croak("Imager: Parameter 3 must be a reference to an array\n");
- if (SvTYPE(SvRV(ST(1))) != SVt_PVAV) croak("Imager: Parameter 1 must be a reference to an array\n");
- if (SvTYPE(SvRV(ST(2))) != SVt_PVAV) croak("Imager: Parameter 2 must be a reference to an array\n");
- if (SvTYPE(SvRV(ST(3))) != SVt_PVAV) croak("Imager: Parameter 3 must be a reference to an array\n");
- av=(AV*)SvRV(ST(1));
- opxl=av_len(av)+1;
- opx=mymalloc( opxl*sizeof(int) );
- for(i=0;i<opxl;i++) {
- sv1=(*(av_fetch(av,i,0)));
- opx[i]=(int)SvIV(sv1);
- }
- av=(AV*)SvRV(ST(2));
- opyl=av_len(av)+1;
- opy=mymalloc( opyl*sizeof(int) );
- for(i=0;i<opyl;i++) {
- sv1=(*(av_fetch(av,i,0)));
- opy[i]=(int)SvIV(sv1);
- }
- av=(AV*)SvRV(ST(3));
- parmlen=av_len(av)+1;
- parm=mymalloc( parmlen*sizeof(double) );
- for(i=0;i<parmlen;i++) { /* FIXME: Bug? */
- sv1=(*(av_fetch(av,i,0)));
- parm[i]=(double)SvNV(sv1);
- }
- result=i_transform(im,opx,opxl,opy,opyl,parm,parmlen);
- myfree(parm);
- myfree(opy);
- myfree(opx);
+ result=i_transform(im,opx,size_opx,opy,size_opy,parm,size_parm);
if (result) {
SV *result_sv = sv_newmortal();
EXTEND(SP, 1);
void
-i_gradgen(im, ...)
+i_gradgen(im, xo, yo, ac, dmeasure)
Imager::ImgRaw im
+ i_img_dim *xo
+ i_img_dim *yo
+ i_color *ac
+ int dmeasure
PREINIT:
- int num;
- i_img_dim *xo;
- i_img_dim *yo;
- i_color *ival;
- int dmeasure;
- int i;
- SV *sv;
- AV *axx;
- AV *ayy;
- AV *ac;
+ STRLEN size_xo;
+ STRLEN size_yo;
+ STRLEN size_ac;
CODE:
- if (items != 5)
- croak("Usage: i_gradgen(im, xo, yo, ival, dmeasure)");
- if (!SvROK(ST(1)) || ! SvTYPE(SvRV(ST(1))))
- croak("i_gradgen: Second argument must be an array ref");
- if (!SvROK(ST(2)) || ! SvTYPE(SvRV(ST(2))))
- croak("i_gradgen: Third argument must be an array ref");
- if (!SvROK(ST(3)) || ! SvTYPE(SvRV(ST(3))))
- croak("i_gradgen: Fourth argument must be an array ref");
- axx = (AV *)SvRV(ST(1));
- ayy = (AV *)SvRV(ST(2));
- ac = (AV *)SvRV(ST(3));
- dmeasure = (int)SvIV(ST(4));
-
- num = av_len(axx) < av_len(ayy) ? av_len(axx) : av_len(ayy);
- num = num <= av_len(ac) ? num : av_len(ac);
- num++;
- if (num < 2) croak("Usage: i_gradgen array refs must have more than 1 entry each");
- xo = mymalloc( sizeof(i_img_dim) * num );
- yo = mymalloc( sizeof(i_img_dim) * num );
- ival = mymalloc( sizeof(i_color) * num );
- for(i = 0; i<num; i++) {
- xo[i] = (i_img_dim)SvIV(* av_fetch(axx, i, 0));
- yo[i] = (i_img_dim)SvIV(* av_fetch(ayy, i, 0));
- sv = *av_fetch(ac, i, 0);
- if ( !sv_derived_from(sv, "Imager::Color") ) {
- free(axx); free(ayy); free(ac);
- croak("i_gradgen: Element of fourth argument is not derived from Imager::Color");
- }
- ival[i] = *INT2PTR(i_color *, SvIV((SV *)SvRV(sv)));
- }
- i_gradgen(im, num, xo, yo, ival, dmeasure);
- myfree(xo);
- myfree(yo);
- myfree(ival);
+ if (size_xo != size_yo || size_xo != size_ac)
+ croak("i_gradgen: x, y and color arrays must be the same size");
+ if (size_xo < 2)
+ croak("Usage: i_gradgen array refs must have more than 1 entry each");
+ i_gradgen(im, size_xo, xo, yo, ac, dmeasure);
Imager::ImgRaw
i_diff_image(im, im2, mindist=0)
DSO_call(handle,func_index,hv)
void* handle
int func_index
- PREINIT:
- HV* hv;
+ HV *hv
PPCODE:
- if (!SvROK(ST(2))) croak("Imager: Parameter 2 must be a reference to a hash\n");
- hv=(HV*)SvRV(ST(2));
- if (SvTYPE(hv)!=SVt_PVHV) croak("Imager: Parameter 2 must be a reference to a hash\n");
DSO_call( (DSO_handle *)handle,func_index,hv);
-SV *
+Imager::Color
i_get_pixel(im, x, y)
Imager::ImgRaw im
i_img_dim x
i_img_dim y;
- PREINIT:
- i_color *color;
CODE:
- color = (i_color *)mymalloc(sizeof(i_color));
- if (i_gpix(im, x, y, color) == 0) {
- RETVAL = NEWSV(0, 0);
- sv_setref_pv(RETVAL, "Imager::Color", (void *)color);
- }
- else {
- myfree(color);
- RETVAL = &PL_sv_undef;
+ RETVAL = (i_color *)mymalloc(sizeof(i_color));
+ if (i_gpix(im, x, y, RETVAL) != 0) {
+ myfree(RETVAL);
+ XSRETURN_UNDEF;
}
OUTPUT:
RETVAL
OUTPUT:
RETVAL
-SV *
+SysRet
i_addcolors(im, ...)
Imager::ImgRaw im
PREINIT:
- int index;
i_color *colors;
int i;
CODE:
croak("i_addcolor: pixels must be Imager::Color objects");
}
}
- index = i_addcolors(im, colors, items-1);
- myfree(colors);
- if (index == 0) {
- RETVAL = newSVpv("0 but true", 0);
- }
- else if (index == -1) {
- RETVAL = &PL_sv_undef;
- }
- else {
- RETVAL = newSViv(index);
- }
+ RETVAL = i_addcolors(im, colors, items-1);
OUTPUT:
RETVAL
RETVAL
void
-i_getcolors(im, index, ...)
+i_getcolors(im, index, count=1)
Imager::ImgRaw im
int index
+ int count
PREINIT:
i_color *colors;
- int count = 1;
int i;
PPCODE:
- if (items > 3)
- croak("i_getcolors: too many arguments");
- if (items == 3)
- count = SvIV(ST(2));
if (count < 1)
croak("i_getcolors: count must be positive");
- colors = mymalloc(sizeof(i_color) * count);
+ colors = malloc_temp(aTHX_ sizeof(i_color) * count);
if (i_getcolors(im, index, colors, count)) {
+ EXTEND(SP, count);
for (i = 0; i < count; ++i) {
SV *sv = make_i_color_sv(aTHX_ colors+i);
PUSHs(sv);
}
}
- myfree(colors);
-
undef_neg_int
i_colorcount(im)
i_maxcolors(im)
Imager::ImgRaw im
-SV *
+i_palidx
i_findcolor(im, color)
Imager::ImgRaw im
Imager::Color color
- PREINIT:
- i_palidx index;
CODE:
- if (i_findcolor(im, color, &index)) {
- RETVAL = newSViv(index);
- }
- else {
- RETVAL = &PL_sv_undef;
+ if (!i_findcolor(im, color, &RETVAL)) {
+ XSRETURN_UNDEF;
}
OUTPUT:
RETVAL
i_img_dim count, i;
PPCODE:
if (l < r) {
- data = mymalloc(sizeof(i_sample_t) * (r-l) * channels.count); /* XXX: memleak? */
+ data = mymalloc(sizeof(i_sample_t) * (r-l) * channels.count);
count = i_gsamp(im, l, r, y, data, channels.channels, channels.count);
if (GIMME_V == G_ARRAY) {
EXTEND(SP, count);
}
else {
if (GIMME_V != G_ARRAY) {
- EXTEND(SP, 1);
- PUSHs(&PL_sv_undef);
+ XSRETURN_UNDEF;
}
}
}
else {
if (GIMME_V != G_ARRAY) {
- EXTEND(SP, 1);
- PUSHs(&PL_sv_undef);
+ XSRETURN_UNDEF;
}
}
OUTPUT:
RETVAL
-SV *
+Imager::Color::Float
i_gpixf(im, x, y)
Imager::ImgRaw im
i_img_dim x
i_img_dim y;
- PREINIT:
- i_fcolor *color;
CODE:
- color = (i_fcolor *)mymalloc(sizeof(i_fcolor));
- if (i_gpixf(im, x, y, color) == 0) {
- RETVAL = NEWSV(0,0);
- sv_setref_pv(RETVAL, "Imager::Color::Float", (void *)color);
- }
- else {
- myfree(color);
- RETVAL = &PL_sv_undef;
+ RETVAL = (i_fcolor *)mymalloc(sizeof(i_fcolor));
+ if (i_gpixf(im, x, y, RETVAL) != 0) {
+ myfree(RETVAL);
+ XSRETURN_UNDEF;
}
OUTPUT:
RETVAL
Imager::ImgRaw im
undef_int
-i_tags_addn(im, name, code, idata)
+i_tags_addn(im, name_sv, code, idata)
Imager::ImgRaw im
+ SV *name_sv
int code
int idata
PREINIT:
char *name;
STRLEN len;
CODE:
- if (SvOK(ST(1)))
- name = SvPV(ST(1), len);
+ SvGETMAGIC(name_sv);
+ if (SvOK(name_sv))
+ name = SvPV_nomg(name_sv, len);
else
name = NULL;
RETVAL = i_tags_addn(&im->tags, name, code, idata);
RETVAL
undef_int
-i_tags_add(im, name, code, data, idata)
+i_tags_add(im, name_sv, code, data_sv, idata)
Imager::ImgRaw im
+ SV *name_sv
int code
+ SV *data_sv
int idata
PREINIT:
char *name;
char *data;
STRLEN len;
CODE:
- if (SvOK(ST(1)))
- name = SvPV(ST(1), len);
+ SvGETMAGIC(name_sv);
+ if (SvOK(name_sv))
+ name = SvPV_nomg(name_sv, len);
else
name = NULL;
- if (SvOK(ST(3)))
- data = SvPV(ST(3), len);
+ SvGETMAGIC(data_sv);
+ if (SvOK(data_sv))
+ data = SvPV(data_sv, len);
else {
data = NULL;
len = 0;
OUTPUT:
RETVAL
-SV *
+SysRet
i_tags_find(im, name, start)
Imager::ImgRaw im
char *name
int entry;
CODE:
if (i_tags_find(&im->tags, name, start, &entry)) {
- if (entry == 0)
- RETVAL = newSVpv("0 but true", 0);
- else
- RETVAL = newSViv(entry);
+ RETVAL = entry;
} else {
- RETVAL = &PL_sv_undef;
+ XSRETURN_UNDEF;
}
OUTPUT:
RETVAL
-SV *
+SysRet
i_tags_findn(im, code, start)
Imager::ImgRaw im
int code
int entry;
CODE:
if (i_tags_findn(&im->tags, code, start, &entry)) {
- if (entry == 0)
- RETVAL = newSVpv("0 but true", 0);
- else
- RETVAL = newSViv(entry);
+ RETVAL = entry;
}
else {
- RETVAL = &PL_sv_undef;
+ XSRETURN_UNDEF;
}
OUTPUT:
RETVAL
int combine
Imager::FillHandle
-i_new_fill_hatch(fg, bg, combine, hatch, cust_hatch, dx, dy)
+i_new_fill_hatch(fg, bg, combine, hatch, cust_hatch_sv, dx, dy)
Imager::Color fg
Imager::Color bg
int combine
int hatch
+ SV *cust_hatch_sv
i_img_dim dx
i_img_dim dy
PREINIT:
unsigned char *cust_hatch;
STRLEN len;
CODE:
- if (SvOK(ST(4))) {
- cust_hatch = (unsigned char *)SvPV(ST(4), len);
+ SvGETMAGIC(cust_hatch_sv);
+ if (SvOK(cust_hatch_sv)) {
+ cust_hatch = (unsigned char *)SvPV_nomg(cust_hatch_sv, len);
}
else
cust_hatch = NULL;
RETVAL
Imager::FillHandle
-i_new_fill_hatchf(fg, bg, combine, hatch, cust_hatch, dx, dy)
+i_new_fill_hatchf(fg, bg, combine, hatch, cust_hatch_sv, dx, dy)
Imager::Color::Float fg
Imager::Color::Float bg
int combine
int hatch
+ SV *cust_hatch_sv
i_img_dim dx
i_img_dim dy
PREINIT:
unsigned char *cust_hatch;
STRLEN len;
CODE:
- if (SvOK(ST(4))) {
- cust_hatch = (unsigned char *)SvPV(ST(4), len);
+ SvGETMAGIC(cust_hatch_sv);
+ if (SvOK(cust_hatch_sv)) {
+ cust_hatch = (unsigned char *)SvPV(cust_hatch_sv, len);
}
else
cust_hatch = NULL;
RETVAL
Imager::FillHandle
-i_new_fill_image(src, matrix, xoff, yoff, combine)
+i_new_fill_image(src, matrix_sv, xoff, yoff, combine)
Imager::ImgRaw src
+ SV *matrix_sv
i_img_dim xoff
i_img_dim yoff
int combine
SV *sv1;
int i;
CODE:
- if (!SvOK(ST(1))) {
+ SvGETMAGIC(matrix_sv);
+ if (!SvOK(matrix_sv)) {
matrixp = NULL;
}
else {
- if (!SvROK(ST(1)) || SvTYPE(SvRV(ST(1))) != SVt_PVAV)
- croak("i_new_fill_image: parameter must be an arrayref");
- av=(AV*)SvRV(ST(1));
+ if (!SvROK(matrix_sv) || SvTYPE(SvRV(matrix_sv)) != SVt_PVAV)
+ croak("i_new_fill_image: matrix parameter must be an arrayref or undef");
+ av=(AV*)SvRV(matrix_sv);
len=av_len(av)+1;
if (len > 9)
len = 9;
projects / imager.git / blobdiff