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- Reestructuración de ficheros y directorios general

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- merge v0.01 --> Añadido fileselector
- Añadidas fuentes de Gem y Pure Data
- pix2jpg incluído en Gem. Archivos de construcción de Gem modificados.
- Añadido fichero ompiling.txt con instrucciones de compilación
This commit is contained in:
Santi Noreña 2013-02-04 18:00:17 +01:00
parent c9adfd020b
commit e85d191b46
3100 changed files with 775434 additions and 3073 deletions
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9
pd-0.44-2/doc/6.externs/0.README.txt Normal file
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EXTERNAL OBJECTS in Pd.
Here are the sources for three simple external objects in Pd.
To compile, type "make pd_linux", "nmake pd_nt", "make pd_irix5" or "make
pd_irix6".
The objects "foo1" and "foo2" are intended as very simple control objects, and
"dspobj" is a tilde object.

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pd-0.44-2/doc/6.externs/dspobj~.c Normal file
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#include "m_pd.h"
#ifdef NT
#pragma warning( disable : 4244 )
#pragma warning( disable : 4305 )
#endif
/* ------------------------ dspobj~ ----------------------------- */
/* tilde object to take absolute value. */
static t_class *dspobj_class;
typedef struct _dspobj
{
t_object x_obj; /* obligatory header */
t_float x_f; /* place to hold inlet's value if it's set by message */
} t_dspobj;
/* this is the actual performance routine which acts on the samples.
It's called with a single pointer "w" which is our location in the
DSP call list. We return a new "w" which will point to the next item
after us. Meanwhile, w[0] is just a pointer to dsp-perform itself
(no use to us), w[1] and w[2] are the input and output vector locations,
and w[3] is the number of points to calculate. */
static t_int *dspobj_perform(t_int *w)
{
t_float *in = (t_float *)(w[1]);
t_float *out = (t_float *)(w[2]);
int n = (int)(w[3]);
while (n--)
{
float f = *(in++);
*out++ = (f > 0 ? f : -f);
}
return (w+4);
}
/* called to start DSP. Here we call Pd back to add our perform
routine to a linear callback list which Pd in turn calls to grind
out the samples. */
static void dspobj_dsp(t_dspobj *x, t_signal **sp)
{
dsp_add(dspobj_perform, 3, sp[0]->s_vec, sp[1]->s_vec, sp[0]->s_n);
}
static void *dspobj_new(void)
{
t_dspobj *x = (t_dspobj *)pd_new(dspobj_class);
outlet_new(&x->x_obj, gensym("signal"));
x->x_f = 0;
return (x);
}
/* this routine, which must have exactly this name (with the "~" replaced
by "_tilde) is called when the code is first loaded, and tells Pd how
to build the "class". */
void dspobj_tilde_setup(void)
{
dspobj_class = class_new(gensym("dspobj~"), (t_newmethod)dspobj_new, 0,
sizeof(t_dspobj), 0, A_DEFFLOAT, 0);
/* this is magic to declare that the leftmost, "main" inlet
takes signals; other signal inlets are done differently... */
CLASS_MAINSIGNALIN(dspobj_class, t_dspobj, x_f);
/* here we tell Pd about the "dsp" method, which is called back
when DSP is turned on. */
class_addmethod(dspobj_class, (t_method)dspobj_dsp, gensym("dsp"), 0);
}

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pd-0.44-2/doc/6.externs/makefile Normal file
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current:
echo make pd_linux, pd_nt, pd_irix5, or pd_irix6
clean: ; rm -f *.pd_linux *.o
# ----------------------- NT -----------------------
pd_nt: obj1.dll obj2.dll obj3.dll obj4.dll obj5.dll dspobj~.dll
.SUFFIXES: .obj .dll
PDNTCFLAGS = /W3 /WX /DNT /DPD /nologo
VC="D:\Program Files\Microsoft Visual Studio\Vc98"
PDNTINCLUDE = /I. /I\tcl\include /I..\..\src /I$(VC)\include
PDNTLDIR = $(VC)\lib
PDNTLIB = $(PDNTLDIR)\libc.lib \
$(PDNTLDIR)\oldnames.lib \
$(PDNTLDIR)\kernel32.lib \
..\..\bin\pd.lib
.c.dll:
cl $(PDNTCFLAGS) $(PDNTINCLUDE) /c $*.c
link /dll /export:$*_setup $*.obj $(PDNTLIB)
# override explicitly for tilde objects like this:
dspobj~.dll: dspobj~.c;
cl $(PDNTCFLAGS) $(PDNTINCLUDE) /c $*.c
link /dll /export:dspobj_tilde_setup $*.obj $(PDNTLIB)
# ----------------------- IRIX 5.x -----------------------
pd_irix5: obj1.pd_irix5 obj2.pd_irix5 \
obj3.pd_irix5 obj4.pd_irix5 obj5.pd_irix5 dspobj~.pd_irix5
.SUFFIXES: .pd_irix5
SGICFLAGS5 = -o32 -DPD -DUNIX -DIRIX -O2
SGIINCLUDE = -I../../src/
.c.pd_irix5:
cc $(SGICFLAGS5) $(SGIINCLUDE) -o $*.o -c $*.c
ld -elf -shared -rdata_shared -o $*.pd_irix5 $*.o
rm $*.o
# ----------------------- LINUX i386 -----------------------
pd_linux: obj1.pd_linux obj2.pd_linux obj3.pd_linux obj4.pd_linux \
obj5.pd_linux dspobj~.pd_linux
.SUFFIXES: .pd_linux
LINUXCFLAGS = -DPD -O2 -funroll-loops -fomit-frame-pointer \
-Wall -W -Wshadow -Wstrict-prototypes -Werror \
-Wno-unused -Wno-parentheses -Wno-switch
LINUXINCLUDE = -I../../src
.c.pd_linux:
cc $(LINUXCFLAGS) $(LINUXINCLUDE) -o $*.o -c $*.c
ld -shared -o $*.pd_linux $*.o -lc -lm
strip --strip-unneeded $*.pd_linux
rm $*.o
# ----------------------- Mac OSX -----------------------
pd_darwin: obj1.pd_darwin obj2.pd_darwin \
obj3.pd_darwin obj4.pd_darwin obj5.pd_darwin dspobj~.pd_darwin
.SUFFIXES: .pd_darwin
DARWINCFLAGS = -DPD -O2 -Wall -W -Wshadow -Wstrict-prototypes \
-Wno-unused -Wno-parentheses -Wno-switch
.c.pd_darwin:
cc $(DARWINCFLAGS) $(LINUXINCLUDE) -o $*.o -c $*.c
cc -bundle -undefined suppress -flat_namespace -o $*.pd_darwin $*.o
rm -f $*.o

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/* code for "obj1" pd class. This takes two messages: floating-point
numbers, and "rats", and just prints something out for each message. */
#include "m_pd.h"
/* the data structure for each copy of "obj1". In this case we
on;y need pd's obligatory header (of type t_object). */
typedef struct obj1
{
t_object x_ob;
} t_obj1;
/* this is called back when obj1 gets a "float" message (i.e., a
number.) */
void obj1_float(t_obj1 *x, t_floatarg f)
{
post("obj1: %f", f);
}
/* this is called when obj1 gets the message, "rats". */
void obj1_rats(t_obj1 *x)
{
post("obj1: rats");
}
/* this is a pointer to the class for "obj1", which is created in the
"setup" routine below and used to create new ones in the "new" routine. */
t_class *obj1_class;
/* this is called when a new "obj1" object is created. */
void *obj1_new(void)
{
t_obj1 *x = (t_obj1 *)pd_new(obj1_class);
post("obj1_new");
return (void *)x;
}
/* this is called once at setup time, when this code is loaded into Pd. */
void obj1_setup(void)
{
post("obj1_setup");
obj1_class = class_new(gensym("obj1"), (t_newmethod)obj1_new, 0,
sizeof(t_obj1), 0, 0);
class_addmethod(obj1_class, (t_method)obj1_rats, gensym("rats"), 0);
class_addfloat(obj1_class, obj1_float);
}

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/* code for the "obj2" pd class. This one, in addition to the "obj1"
code, has an inlet taking numbers. */
#include "m_pd.h"
typedef struct obj2
{
t_object x_ob;
} t_obj2;
void obj2_float(t_obj2 *x, t_floatarg f)
{
post("obj2: %f", f);
}
void obj2_rats(t_obj2 *x)
{
post("obj2: rats");
}
void obj2_ft1(t_obj2 *x, t_floatarg g)
{
post("ft1: %f", g);
}
t_class *obj2_class;
void *obj2_new(void)
{
t_obj2 *x = (t_obj2 *)pd_new(obj2_class);
inlet_new(&x->x_ob, &x->x_ob.ob_pd, gensym("float"), gensym("ft1"));
post("obj2_new");
return (void *)x;
}
void obj2_setup(void)
{
post("obj2_setup");
obj2_class = class_new(gensym("obj2"), (t_newmethod)obj2_new,
0, sizeof(t_obj2), 0, 0);
class_addmethod(obj2_class, (t_method)obj2_rats, gensym("rats"), 0);
class_addmethod(obj2_class, (t_method)obj2_ft1, gensym("ft1"), A_FLOAT, 0);
class_addfloat(obj2_class, obj2_float);
}

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/* code for the "obj3" pd class. This adds an outlet and a state variable. */
#include "m_pd.h"
typedef struct obj3
{
t_object x_ob;
t_outlet *x_outlet;
float x_value;
} t_obj3;
void obj3_float(t_obj3 *x, t_floatarg f)
{
outlet_float(x->x_outlet, f + x->x_value);
}
void obj3_ft1(t_obj3 *x, t_floatarg g)
{
x->x_value = g;
}
t_class *obj3_class;
void *obj3_new(void)
{
t_obj3 *x = (t_obj3 *)pd_new(obj3_class);
inlet_new(&x->x_ob, &x->x_ob.ob_pd, gensym("float"), gensym("ft1"));
x->x_outlet = outlet_new(&x->x_ob, gensym("float"));
return (void *)x;
}
void obj3_setup(void)
{
obj3_class = class_new(gensym("obj3"), (t_newmethod)obj3_new,
0, sizeof(t_obj3), 0, 0);
class_addmethod(obj3_class, (t_method)obj3_ft1, gensym("ft1"), A_FLOAT, 0);
class_addfloat(obj3_class, obj3_float);
}

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/* code for the "obj4" pd class. This adds a creation argument, of
type "float". */
#include "m_pd.h"
typedef struct obj4
{
t_object x_ob;
t_outlet *x_outlet;
float x_value;
} t_obj4;
void obj4_float(t_obj4 *x, t_floatarg f)
{
outlet_float(x->x_outlet, x->x_value + f);
}
void obj4_ft1(t_obj4 *x, t_floatarg g)
{
x->x_value = g;
}
t_class *obj4_class;
/* as requested by the new invocation of "class_new" below, the new
routine will be called with a "float" argument. */
void *obj4_new(t_floatarg f)
{
t_obj4 *x = (t_obj4 *)pd_new(obj4_class);
inlet_new(&x->x_ob, &x->x_ob.ob_pd, gensym("float"), gensym("ft1"));
x->x_outlet = outlet_new(&x->x_ob, gensym("float"));
/* just stick the argument in the object structure for later. */
x->x_value = f;
return (void *)x;
}
void obj4_setup(void)
{
/* here we add "A_DEFFLOAT" to the (zero-terminated) list of arg
types we declare for a new object. The value will be filled
in as 0 if not given in the object box. */
obj4_class = class_new(gensym("obj4"), (t_newmethod)obj4_new,
0, sizeof(t_obj4), 0, A_DEFFLOAT, 0);
class_addmethod(obj4_class, (t_method)obj4_ft1, gensym("ft1"), A_FLOAT, 0);
class_addfloat(obj4_class, obj4_float);
}

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/* code for the "obj5" pd class. This shows "gimme" arguments, which have
variable arguments parsed by the routines (both "new" and "rats".) */
#include "m_pd.h"
typedef struct obj5
{
t_object x_ob;
} t_obj5;
/* the "rats" method is called with the selector (just "rats" again)
and an array of the typed areguments, which are each either a number
or a symbol. We just print them out. */
void obj5_rats(t_obj5 *x, t_symbol *selector, int argcount, t_atom *argvec)
{
int i;
post("rats: selector %s", selector->s_name);
for (i = 0; i < argcount; i++)
{
if (argvec[i].a_type == A_FLOAT)
post("float: %f", argvec[i].a_w.w_float);
else if (argvec[i].a_type == A_SYMBOL)
post("symbol: %s", argvec[i].a_w.w_symbol->s_name);
}
}
t_class *obj5_class;
/* same for the "new" (creation) routine, except that we don't have
"x" as an argument since we have to create "x" in this routine. */
void *obj5_new(t_symbol *selector, int argcount, t_atom *argvec)
{
t_obj5 *x = (t_obj5 *)pd_new(obj5_class);
int i;
post("new: selector %s", selector->s_name);
for (i = 0; i < argcount; i++)
{
if (argvec[i].a_type == A_FLOAT)
post("float: %f", argvec[i].a_w.w_float);
else if (argvec[i].a_type == A_SYMBOL)
post("symbol: %s", argvec[i].a_w.w_symbol->s_name);
}
return (void *)x;
}
void obj5_setup(void)
{
/* We specify "A_GIMME" as creation argument for both the creation
routine and the method (callback) for the "rats" message. */
obj5_class = class_new(gensym("obj5"), (t_newmethod)obj5_new,
0, sizeof(t_obj5), 0, A_GIMME, 0);
class_addmethod(obj5_class, (t_method)obj5_rats, gensym("rats"), A_GIMME, 0);
}

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pd-0.44-2/doc/6.externs/test-dspobj~.pd Normal file
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#N canvas 0 0 335 239 10;
#X obj 90 124 dspobj~;
#X obj 90 96 sig~ 0;
#X msg 106 149 bang;
#X obj 90 177 print~;
#X floatatom 89 71;
#X msg 202 37 \; pd dsp 1;
#X connect 0 0 3 0;
#X connect 1 0 0 0;
#X connect 2 0 3 0;
#X connect 4 0 1 0;

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#N canvas 68 38 317 151 12;
#X msg 68 52 5;
#X msg 100 52 rats;
#X obj 67 90 obj1;
#X connect 0 0 2 0;
#X connect 1 0 2 0;

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#N canvas 62 333 310 157 12;
#X msg 109 51 rats;
#X msg 157 52 7;
#X msg 68 52 4;
#X obj 68 90 obj2;
#X connect 0 0 3 0;
#X connect 1 0 3 1;
#X connect 2 0 3 0;

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pd-0.44-2/doc/6.externs/test-obj3.pd Normal file
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#N canvas 128 288 310 157 12;
#X obj 68 91 obj3;
#X floatatom 67 61 3 0 0 0 - - -;
#X floatatom 108 59 3 0 0 0 - - -;
#X floatatom 70 118 3 0 0 0 - - -;
#X connect 0 0 3 0;
#X connect 1 0 0 0;
#X connect 2 0 0 1;

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#N canvas 128 288 310 157 12;
#X floatatom 67 61 3 0 0 0 - - -;
#X floatatom 70 118 3 0 0 0 - - -;
#X obj 68 91 obj4 34;
#X connect 0 0 2 0;
#X connect 2 0 1 0;

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#N canvas 128 288 310 157 12;
#X obj 15 74 obj5 1 2 3 cis boom bah;
#X msg 15 30 rats 4 5 6 tara tara boum boum;
#X connect 1 0 0 0;