diff options
Diffstat (limited to 'src/mtx_binops.c')
-rw-r--r-- | src/mtx_binops.c | 680 |
1 files changed, 680 insertions, 0 deletions
diff --git a/src/mtx_binops.c b/src/mtx_binops.c new file mode 100644 index 0000000..5625667 --- /dev/null +++ b/src/mtx_binops.c @@ -0,0 +1,680 @@ +/* + * iemmatrix + * + * objects for manipulating simple matrices + * mostly refering to matlab/octave matrix functions + * + * (c) IOhannes m zmölnig, forum::für::umläute + * + * IEM, Graz + * + * this code is published under the LGPL + * + */ +#include "iemmatrix.h" + +/* + mtx_add + mtx_+ + mtx_mul + mtx_* + mtx_.* + mtx_./ +*/ + +/* -------------------------------------------------------------- */ +/* matrix math */ + +typedef struct _mtx_binscalar +{ + t_object x_obj; + + t_matrix m; // the output matrix + t_float f; // the second input +} t_mtx_binscalar; + +typedef struct _mtx_binmtx +{ + t_object x_obj; + + t_matrix m; // the output matrix + t_matrix m2; // the second input +} t_mtx_binmtx; + +static void mtx_bin_matrix2(t_mtx_binmtx *x, t_symbol *s, int argc, t_atom *argv) +{ + int row = atom_getfloat(argv); + int col = atom_getfloat(argv+1); + if (argc<2){post("mtx_bin2: crippled matrix"); return;} + if ((col<1)||(row<1)) {post("mtx_bin2: invalid dimensions %dx%d", row,col); return;} + if (col*row+2>argc){ post("mtx_bin2: sparse matrix not yet supported : use \"mtx_check\""); return;} + + if (row*col!=x->m2.row*x->m2.col) { + freebytes(x->m2.atombuffer, (x->m2.row*x->m2.col+2)*sizeof(t_atom)); + x->m2.atombuffer=copybytes(argv,(row*col+2)*sizeof(t_atom)); + }else memcpy(x->m2.atombuffer, argv, (row*col+2)*sizeof(t_atom)); + setdimen(&x->m2, row, col); +} + +static void mtx_binmtx_bang(t_mtx_binmtx *x) +{ + if((&x->m)&&(x->m.atombuffer)) + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), x->m.col*x->m.row+2, x->m.atombuffer); +} + + +static void mtx_binmtx_free(t_mtx_binmtx *x) +{ + matrix_free(&x->m); + matrix_free(&x->m2); +} +static void mtx_binscalar_bang(t_mtx_binscalar *x) +{ + if((&x->m)&&(x->m.atombuffer)) + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), x->m.col*x->m.row+2, x->m.atombuffer); +} +static void mtx_binscalar_free(t_mtx_binscalar *x) +{ + matrix_free(&x->m); +} + + + +/* mtx_add */ +static t_class *mtx_add_class, *mtx_addscalar_class; + +static void mtx_addscalar_matrix(t_mtx_binscalar *x, t_symbol *s, int argc, t_atom *argv) +{ + int n=argc-2; + int row=atom_getfloat(argv), col=atom_getfloat(argv+1); + + t_float offset=x->f; + t_atom *buf; + t_atom *ap=argv+2; + + if(argc<2){post("mtx_add: crippled matrix");return; } + adjustsize(&x->m, row, col); + + buf=x->m.atombuffer+2; + + while(n--){ + buf->a_type = A_FLOAT; + buf++->a_w.w_float = atom_getfloat(ap++) + offset; + } + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), argc, x->m.atombuffer); +} +static void mtx_addscalar_list(t_mtx_binscalar *x, t_symbol *s, int argc, t_atom *argv) +{ + int n=argc; + t_atom *m; + t_float offset = x->f; + adjustsize(&x->m, 1, argc); + m = x->m.atombuffer; + + while(n--){ + m->a_type = A_FLOAT; + (m++)->a_w.w_float = atom_getfloat(argv++) + offset; + } + outlet_list(x->x_obj.ob_outlet, gensym("list"), argc, x->m.atombuffer); +} + +static void mtx_add_matrix(t_mtx_binmtx *x, t_symbol *s, int argc, t_atom *argv) +{ + int row=atom_getfloat(argv); + int col=atom_getfloat(argv+1); + t_atom *m; + t_atom *m1 = argv+2; + t_atom *m2 = x->m2.atombuffer+2; + int n = argc-2; + + if (argc<2){ post("mtx_add: crippled matrix"); return; } + if ((col<1)||(row<1)) { post("mtx_add: invalid dimensions"); return; } + if (col*row>argc-2){ post("sparse matrix not yet supported : use \"mtx_check\""); return; } + + if (!(x->m2.col*x->m2.row)) { + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), argc, argv); + return; + } + + if ((col!=x->m2.col)||(row!=x->m2.row)){ + post("mtx_add: matrix dimensions do not match"); + /* LATER SOLVE THIS */ + return; + } + adjustsize(&x->m, row, col); + m = x->m.atombuffer+2; + + while(n--){ + t_float f = atom_getfloat(m1++)+atom_getfloat(m2++); + SETFLOAT(m, f); + m++; + } + + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), argc, x->m.atombuffer); +} +static void mtx_add_float(t_mtx_binmtx *x, t_float f) +{ + t_matrix *m=&x->m, *m2=&x->m2; + t_atom *ap, *ap2=m2->atombuffer+2; + int row2, col2, n; + + if (!m2->atombuffer){ post("mulitply with what ?"); return; } + + row2=atom_getfloat(m2->atombuffer); + col2=atom_getfloat(m2->atombuffer+1); + adjustsize(m, row2, col2); + ap=m->atombuffer+2; + + n=row2*col2; + + while(n--){ + SETFLOAT(ap, f+atom_getfloat(ap2++)); + ap++; + } + + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), m->row*m->col+2, m->atombuffer); +} +static void *mtx_add_new(t_symbol *s, int argc, t_atom *argv) +{ + if (argc>1) post("mtx_add : extra arguments ignored"); + if (argc) { + t_mtx_binscalar *x = (t_mtx_binscalar *)pd_new(mtx_addscalar_class); + floatinlet_new(&x->x_obj, &x->f); + x->f = atom_getfloatarg(0, argc, argv); + outlet_new(&x->x_obj, 0); + return(x); + } else { + t_mtx_binmtx *x = (t_mtx_binmtx *)pd_new(mtx_add_class); + inlet_new(&x->x_obj, &x->x_obj.ob_pd, gensym("matrix"), gensym("")); + outlet_new(&x->x_obj, 0); + x->m.col = x->m.row = x->m2.col = x->m2.row = 0; + x->m.atombuffer = x->m2.atombuffer = 0; + return(x); + } +} + +static void mtx_add_setup(void) +{ + mtx_add_class = class_new(gensym("mtx_add"), (t_newmethod)mtx_add_new, (t_method)mtx_binmtx_free, + sizeof(t_mtx_binmtx), 0, A_GIMME, 0); + class_addcreator((t_newmethod)mtx_add_new, gensym("mtx_+"), A_GIMME,0); + class_addmethod(mtx_add_class, (t_method)mtx_add_matrix, gensym("matrix"), A_GIMME, 0); + class_addmethod(mtx_add_class, (t_method)mtx_bin_matrix2, gensym(""), A_GIMME, 0); + class_addfloat (mtx_add_class, mtx_add_float); + class_addbang (mtx_add_class, mtx_binmtx_bang); + + mtx_addscalar_class = class_new(gensym("mtx_add"), 0, (t_method)mtx_binscalar_free, + sizeof(t_mtx_binscalar), 0, 0); + class_addcreator(0, gensym("mtx_+"), 0, 0); + class_addmethod(mtx_addscalar_class, (t_method)mtx_addscalar_matrix, gensym("matrix"), A_GIMME, 0); + class_addlist (mtx_addscalar_class, mtx_addscalar_list); + class_addbang (mtx_addscalar_class, mtx_binscalar_bang); + + class_sethelpsymbol(mtx_add_class, gensym("iemmatrix/mtx_binops")); + class_sethelpsymbol(mtx_addscalar_class, gensym("iemmatrix/mtx_binops")); +} + +/* mtx_sub */ +static t_class *mtx_sub_class, *mtx_subscalar_class; + +static void mtx_subscalar_matrix(t_mtx_binscalar *x, t_symbol *s, int argc, t_atom *argv) +{ + int n=argc-2; + int row=atom_getfloat(argv), col=atom_getfloat(argv+1); + + t_float offset=x->f; + t_atom *buf; + t_atom *ap=argv+2; + + if(argc<2){post("mtx_sub: crippled matrix");return; } + adjustsize(&x->m, row, col); + + buf=x->m.atombuffer+2; + + while(n--){ + buf->a_type = A_FLOAT; + buf++->a_w.w_float = atom_getfloat(ap++) - offset; + } + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), argc, x->m.atombuffer); +} +static void mtx_subscalar_list(t_mtx_binscalar *x, t_symbol *s, int argc, t_atom *argv) +{ + int n=argc; + t_atom *m; + t_float offset = x->f; + adjustsize(&x->m, 1, argc); + m = x->m.atombuffer; + + while(n--){ + m->a_type = A_FLOAT; + (m++)->a_w.w_float = atom_getfloat(argv++) - offset; + } + outlet_list(x->x_obj.ob_outlet, gensym("list"), argc, x->m.atombuffer); +} + +static void mtx_sub_matrix(t_mtx_binmtx *x, t_symbol *s, int argc, t_atom *argv) +{ + int row=atom_getfloat(argv); + int col=atom_getfloat(argv+1); + t_atom *m; + t_atom *m1 = argv+2; + t_atom *m2 = x->m2.atombuffer+2; + int n = argc-2; + + if (argc<2){ post("mtx_sub: crippled matrix"); return; } + if ((col<1)||(row<1)) { post("mtx_sub: invalid dimensions"); return; } + if (col*row>argc-2){ post("sparse matrix not yet supported : use \"mtx_check\""); return; } + + if (!(x->m2.col*x->m2.row)) { + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), argc, argv); + return; + } + + if ((col!=x->m2.col)||(row!=x->m2.row)){ + post("mtx_sub: matrix dimensions do not match"); + /* LATER SOLVE THIS */ + return; + } + adjustsize(&x->m, row, col); + m = x->m.atombuffer+2; + + while(n--){ + t_float f = atom_getfloat(m1++)-atom_getfloat(m2++); + SETFLOAT(m, f); + m++; + } + + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), argc, x->m.atombuffer); +} +static void mtx_sub_float(t_mtx_binmtx *x, t_float f) +{ + t_matrix *m=&x->m, *m2=&x->m2; + t_atom *ap, *ap2=m2->atombuffer+2; + int row2, col2, n; + + if (!m2->atombuffer){ post("mulitply with what ?"); return; } + + row2=atom_getfloat(m2->atombuffer); + col2=atom_getfloat(m2->atombuffer+1); + adjustsize(m, row2, col2); + ap=m->atombuffer+2; + + n=row2*col2; + + while(n--){ + SETFLOAT(ap, f-atom_getfloat(ap2++)); + ap++; + } + + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), m->row*m->col+2, m->atombuffer); +} +static void *mtx_sub_new(t_symbol *s, int argc, t_atom *argv) +{ + if (argc>1) post("mtx_sub : extra arguments ignored"); + if (argc) { + t_mtx_binscalar *x = (t_mtx_binscalar *)pd_new(mtx_subscalar_class); + floatinlet_new(&x->x_obj, &x->f); + x->f = atom_getfloatarg(0, argc, argv); + outlet_new(&x->x_obj, 0); + return(x); + } else { + t_mtx_binmtx *x = (t_mtx_binmtx *)pd_new(mtx_sub_class); + inlet_new(&x->x_obj, &x->x_obj.ob_pd, gensym("matrix"), gensym("")); + outlet_new(&x->x_obj, 0); + x->m.col = x->m.row = x->m2.col = x->m2.row = 0; + x->m.atombuffer = x->m2.atombuffer = 0; + return(x); + } +} + +static void mtx_sub_setup(void) +{ + mtx_sub_class = class_new(gensym("mtx_sub"), (t_newmethod)mtx_sub_new, (t_method)mtx_binmtx_free, + sizeof(t_mtx_binmtx), 0, A_GIMME, 0); + class_addcreator((t_newmethod)mtx_sub_new, gensym("mtx_-"), A_GIMME,0); + class_addmethod(mtx_sub_class, (t_method)mtx_sub_matrix, gensym("matrix"), A_GIMME, 0); + class_addmethod(mtx_sub_class, (t_method)mtx_bin_matrix2, gensym(""), A_GIMME, 0); + class_addfloat (mtx_sub_class, mtx_sub_float); + class_addbang (mtx_sub_class, mtx_binmtx_bang); + + mtx_subscalar_class = class_new(gensym("mtx_sub"), 0, (t_method)mtx_binscalar_free, + sizeof(t_mtx_binscalar), 0, 0); + class_addcreator(0, gensym("mtx_-"), 0, 0); + class_addmethod(mtx_subscalar_class, (t_method)mtx_subscalar_matrix, gensym("matrix"), A_GIMME, 0); + class_addlist (mtx_subscalar_class, mtx_subscalar_list); + class_addbang (mtx_subscalar_class, mtx_binscalar_bang); + + class_sethelpsymbol(mtx_sub_class, gensym("iemmatrix/mtx_binops")); + class_sethelpsymbol(mtx_subscalar_class, gensym("iemmatrix/mtx_binops")); +} + + +/* mtx_mul */ +static t_class *mtx_mul_class, *mtx_mulelement_class, *mtx_mulscalar_class; + +static void mtx_mul_matrix(t_mtx_binmtx *x, t_symbol *s, int argc, t_atom *argv) +{ + t_matrix *m=&x->m, *m2=&x->m2; + t_atom *ap, *ap1=argv+2, *ap2=m2->atombuffer+2; + int row=atom_getfloat(argv), col=atom_getfloat(argv+1); + int row2, col2, n, r, c; + + if (!m2->atombuffer){ post("mulitply with what ?"); return; } + if (argc<2){ post("mtx_mul: crippled matrix"); return; } + if ((col<1)||(row<1)){post("mtx_mul: invalid dimensions"); return; } + if (col*row>argc-2){ post("sparse matrix not yet supported : use \"mtx_check\""); return; } + + row2=atom_getfloat(m2->atombuffer); + col2=atom_getfloat(m2->atombuffer+1); + + if (col!=row2) { post("mtx_mul: matrix dimensions do not match !"); return; } + + adjustsize(m, row, col2); + ap=m->atombuffer+2; + + for(r=0;r<row;r++) + for(c=0;c<col2;c++) { + t_matrixfloat sum = 0.f; + for(n=0;n<col;n++)sum+=(t_matrixfloat)atom_getfloat(ap1+col*r+n)*atom_getfloat(ap2+col2*n+c); + SETFLOAT(ap+col2*r+c,sum); + } + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), m->row*m->col+2, m->atombuffer); +} + +static void mtx_mul_float(t_mtx_binmtx *x, t_float f) +{ + t_matrix *m=&x->m, *m2=&x->m2; + t_atom *ap, *ap2=m2->atombuffer+2; + int row2, col2, n; + + if (!m2->atombuffer){ post("mulitply with what ?"); return; } + + row2=atom_getfloat(m2->atombuffer); + col2=atom_getfloat(m2->atombuffer+1); + adjustsize(m, row2, col2); + ap=m->atombuffer+2; + + n=row2*col2; + + while(n--){ + SETFLOAT(ap, f*atom_getfloat(ap2++)); + ap++; + } + + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), m->row*m->col+2, m->atombuffer); +} + +static void mtx_mulelement_matrix(t_mtx_binmtx *x, t_symbol *s, int argc, t_atom *argv) +{ + int row=atom_getfloat(argv++); + int col=atom_getfloat(argv++); + t_atom *m; + t_atom *m2 = x->m2.atombuffer+2; + int n = argc-2; + + if (argc<2){ post("mtx_mul: crippled matrix"); return; } + if ((col<1)||(row<1)) { post("mtx_mul: invalid dimensions"); return; } + if (col*row>argc-2){ post("sparse matrix not yet supported : use \"mtx_check\""); return; } + if (!(x->m2.col*x->m2.row)) { + adjustsize(&x->m, row, col); + matrix_set(&x->m, 0); + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), argc, x->m.atombuffer); + return; + } + if ((col!=x->m2.col)||(row!=x->m2.row)){ post("matrix dimension do not match"); /* LATER SOLVE THIS */ return; } + + adjustsize(&x->m, row, col); + m = x->m.atombuffer+2; + + while(n--){ + t_float f = atom_getfloat(argv++)*atom_getfloat(m2++); + SETFLOAT(m, f); + m++; + } + + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), argc, x->m.atombuffer); +} + +static void mtx_mulscalar_matrix(t_mtx_binscalar *x, t_symbol *s, int argc, t_atom *argv) +{ + int n=argc-2; + t_atom *m; + t_float factor = x->f; + int row=atom_getfloat(argv++); + int col=atom_getfloat(argv++); + + if (argc<2){ + post("mtx_mul: crippled matrix"); + return; + } + adjustsize(&x->m, row, col); + m = x->m.atombuffer+2; + + while(n--){ + m->a_type = A_FLOAT; + (m++)->a_w.w_float = atom_getfloat(argv++)*factor; + } + + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), argc, x->m.atombuffer); +} +static void mtx_mulscalar_list(t_mtx_binscalar *x, t_symbol *s, int argc, t_atom *argv) +{ + int n=argc; + t_atom *m; + t_float factor = x->f; + adjustsize(&x->m, 1, argc); + m = x->m.atombuffer; + + while(n--){ + m->a_type = A_FLOAT; + (m++)->a_w.w_float = atom_getfloat(argv++)*factor; + } + outlet_list(x->x_obj.ob_outlet, gensym("list"), argc, x->m.atombuffer); +} + +static void *mtx_mul_new(t_symbol *s, int argc, t_atom *argv) +{ + if (argc>1) post("mtx_mul : extra arguments ignored"); + if (argc) { + t_mtx_binscalar *x = (t_mtx_binscalar *)pd_new(mtx_mulscalar_class); + floatinlet_new(&x->x_obj, &x->f); + x->f = atom_getfloatarg(0, argc, argv); + outlet_new(&x->x_obj, 0); + return(x); + } else { + if (s->s_name[4]=='.') { + /* element mul */ + + t_matrix *x = (t_matrix *)pd_new(mtx_mulelement_class); + inlet_new(&x->x_obj, &x->x_obj.ob_pd, gensym("matrix"), gensym("")); + outlet_new(&x->x_obj, 0); + x->col = x->row = 0; + x->atombuffer = 0; + return(x); + } else { + t_mtx_binmtx *x = (t_mtx_binmtx *)pd_new(mtx_mul_class); + inlet_new(&x->x_obj, &x->x_obj.ob_pd, gensym("matrix"), gensym("")); + outlet_new(&x->x_obj, 0); + x->m.col = x->m.row = x->m2.col = x->m2.row = 0; + x->m.atombuffer = x->m2.atombuffer = 0; + return (x); + } + } +} + +static void mtx_mul_setup(void) +{ + mtx_mul_class = class_new(gensym("mtx_mul"), (t_newmethod)mtx_mul_new, (t_method)mtx_binmtx_free, + sizeof(t_mtx_binmtx), 0, A_GIMME, 0); + class_addcreator((t_newmethod)mtx_mul_new, gensym("mtx_*"), A_GIMME,0); + class_addmethod(mtx_mul_class, (t_method)mtx_mul_matrix, gensym("matrix"), A_GIMME, 0); + class_addmethod(mtx_mul_class, (t_method)mtx_bin_matrix2, gensym(""), A_GIMME, 0); + class_addfloat (mtx_mul_class, mtx_mul_float); + class_addbang (mtx_mul_class, mtx_binmtx_bang); + + mtx_mulelement_class = class_new(gensym("mtx_.*"), (t_newmethod)mtx_mul_new, (t_method)mtx_binmtx_free, + sizeof(t_mtx_binmtx), 0, A_GIMME, 0); + class_addmethod(mtx_mulelement_class, (t_method)mtx_mulelement_matrix, gensym("matrix"), A_GIMME, 0); + class_addmethod(mtx_mulelement_class, (t_method)mtx_bin_matrix2, gensym(""), A_GIMME, 0); + class_addfloat (mtx_mulelement_class, mtx_mul_float); + class_addbang (mtx_mulelement_class, mtx_binmtx_bang); + + mtx_mulscalar_class = class_new(gensym("mtx_mul"), 0, (t_method)mtx_binscalar_free, + sizeof(t_mtx_binscalar), 0, 0); + class_addcreator(0, gensym("mtx_*"), 0, 0); + class_addcreator(0, gensym("mtx_.*"), 0, 0); + class_addmethod(mtx_mulscalar_class, (t_method)mtx_mulscalar_matrix, gensym("matrix"), A_GIMME, 0); + class_addlist (mtx_mulscalar_class, mtx_mulscalar_list); + class_addbang (mtx_mulscalar_class, mtx_binscalar_bang); + + class_sethelpsymbol(mtx_mul_class, gensym("iemmatrix/mtx_binops")); + class_sethelpsymbol(mtx_mulelement_class, gensym("iemmatrix/mtx_binops")); + class_sethelpsymbol(mtx_mulscalar_class, gensym("iemmatrix/mtx_binops")); +} + + +/* mtx_div */ +static t_class *mtx_divelement_class, *mtx_divscalar_class; + +static void mtx_divelement_matrix(t_mtx_binmtx *x, t_symbol *s, int argc, t_atom *argv) +{ + int row=atom_getfloat(argv++); + int col=atom_getfloat(argv++); + t_atom *m; + t_atom *m2 = x->m2.atombuffer+2; + int n = argc-2; + + if (argc<2){ post("mtx_div: crippled matrix"); return; } + if ((col<1)||(row<1)) { post("mtx_div: invalid dimensions"); return; } + if (col*row>argc-2){ post("sparse matrix not yet supported : use \"mtx_check\""); return; } + if (!(x->m2.col*x->m2.row)) { + adjustsize(&x->m, row, col); + matrix_set(&x->m, 0); + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), argc, x->m.atombuffer); + return; + } + if ((col!=x->m2.col)||(row!=x->m2.row)){ post("matrix dimension do not match"); /* LATER SOLVE THIS */ return; } + + adjustsize(&x->m, row, col); + m = x->m.atombuffer+2; + + while(n--){ + t_float f = atom_getfloat(argv++)/atom_getfloat(m2++); + SETFLOAT(m, f); + m++; + } + + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), argc, x->m.atombuffer); +} +static void mtx_divelement_float(t_mtx_binmtx *x, t_float f) +{ + t_matrix *m=&x->m, *m2=&x->m2; + t_atom *ap, *ap2=m2->atombuffer+2; + int row2, col2, n; + + if (!m2->atombuffer){ post("divide by what ?"); return; } + + row2=atom_getfloat(m2->atombuffer); + col2=atom_getfloat(m2->atombuffer+1); + adjustsize(m, row2, col2); + ap=m->atombuffer+2; + + n=row2*col2; + + while(n--){ + SETFLOAT(ap, f/atom_getfloat(ap2++)); + ap++; + } + + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), m->row*m->col+2, m->atombuffer); +} +static void mtx_divscalar_matrix(t_mtx_binscalar *x, t_symbol *s, int argc, t_atom *argv) +{ + int n=argc-2; + t_atom *m; + t_float factor = 1.0/x->f; + int row=atom_getfloat(argv++); + int col=atom_getfloat(argv++); + + if (argc<2){ + post("mtx_div: crippled matrix"); + return; + } + adjustsize(&x->m, row, col); + m = x->m.atombuffer+2; + + while(n--){ + m->a_type = A_FLOAT; + (m++)->a_w.w_float = atom_getfloat(argv++)*factor; + } + + outlet_anything(x->x_obj.ob_outlet, gensym("matrix"), argc, x->m.atombuffer); +} +static void mtx_divscalar_list(t_mtx_binscalar *x, t_symbol *s, int argc, t_atom *argv) +{ + int n=argc; + t_atom *m; + t_float factor = 1.0/x->f; + + adjustsize(&x->m, 1, argc); + m = x->m.atombuffer; + + while(n--){ + m->a_type = A_FLOAT; + (m++)->a_w.w_float = atom_getfloat(argv++)*factor; + } + + outlet_list(x->x_obj.ob_outlet, gensym("list"), argc, x->m.atombuffer); +} + +static void *mtx_div_new(t_symbol *s, int argc, t_atom *argv) +{ + if (argc>1) post("mtx_div : extra arguments ignored"); + if (argc) { + /* scalar division */ + t_mtx_binscalar *x = (t_mtx_binscalar *)pd_new(mtx_divscalar_class); + floatinlet_new(&x->x_obj, &x->f); + x->f = atom_getfloatarg(0, argc, argv); + outlet_new(&x->x_obj, 0); + return(x); + } else { + /* element division */ + t_matrix *x = (t_matrix *)pd_new(mtx_divelement_class); + inlet_new(&x->x_obj, &x->x_obj.ob_pd, gensym("matrix"), gensym("")); + outlet_new(&x->x_obj, 0); + x->col = x->row = 0; + x->atombuffer = 0; + return(x); + } +} + +static void mtx_div_setup(void) +{ + mtx_divelement_class = class_new(gensym("mtx_./"), (t_newmethod)mtx_div_new, (t_method)mtx_binmtx_free, + sizeof(t_mtx_binmtx), 0, A_GIMME, 0); + class_addmethod(mtx_divelement_class, (t_method)mtx_divelement_matrix, gensym("matrix"), A_GIMME, 0); + class_addmethod(mtx_divelement_class, (t_method)mtx_bin_matrix2, gensym(""), A_GIMME, 0); + class_addfloat (mtx_divelement_class, mtx_divelement_float); + class_addbang (mtx_divelement_class, mtx_binmtx_bang); + + mtx_divscalar_class = class_new(gensym("mtx_./"), 0, (t_method)mtx_binscalar_free, + sizeof(t_mtx_binscalar), 0, 0); + class_addmethod(mtx_divscalar_class, (t_method)mtx_divscalar_matrix, gensym("matrix"), A_GIMME, 0); + class_addlist (mtx_divscalar_class, mtx_divscalar_list); + class_addbang (mtx_divscalar_class, mtx_binscalar_bang); + + class_sethelpsymbol(mtx_divelement_class, gensym("iemmatrix/mtx_binops")); + class_sethelpsymbol(mtx_divscalar_class, gensym("iemmatrix/mtx_binops")); +} + +void mtx_binops_setup(void) +{ + mtx_add_setup(); + mtx_sub_setup(); + mtx_mul_setup(); + mtx_div_setup(); +} +void iemtx_binops_setup(void) +{ + mtx_binops_setup(); +} |