Miroirs/slackbuilds_ponce
1
0
Fork 0
mirror of https://github.com/Ponce/slackbuilds synced 2024-11-07 20:27:02 +01:00
Code Issues Projects Releases Packages Wiki Activity Actions
slackbuilds_ponce/audio/calf-ladspa/minmax.diff
B. Watson 362cf0b3c9 audio/calf-ladspa: Remove extra deps, prepare for gcc7. 
Signed-off-by: B. Watson <yalhcru@gmail.com>
2017-07-08 07:11:17 +07:00

992 lines
42 KiB
Diff
Raw Blame History

diff -Naur calf-0.0.19kx/src/audio_fx.cpp calf-0.0.19kx.patched/src/audio_fx.cpp
--- calf-0.0.19kx/src/audio_fx.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/audio_fx.cpp 2017-07-05 18:09:21.728705740 -0400
@@ -24,6 +24,7 @@
#include <stdlib.h>
#include <time.h>
#include <math.h>
+#include "minmax.h"
using namespace calf_plugins;
using namespace dsp;
@@ -643,7 +644,7 @@
if(_asc and auto_release and asc_c > 0 and _a_att > _att) {
// check if releasing to average level of peaks is steeper than
// releasing to 1.f
- float _delta = std::max((_a_att - _att) / (srate * release), _rdelta / 10);
+ float _delta = MAX((_a_att - _att) / (srate * release), _rdelta / 10);
if(_delta < _rdelta) {
asc_active = true;
_asc_used = true;
@@ -689,7 +690,7 @@
float _peak;
// calc the attenuation needed to reduce incoming peak
- float _att = std::min(_limit / peak, 1.f);
+ float _att = MIN(_limit / peak, 1.f);
// calc release without any asc to keep all relevant peaks
float _rdelta = get_rdelta(peak, _limit, _att, false);
diff -Naur calf-0.0.19kx/src/calf/buffer.h calf-0.0.19kx.patched/src/calf/buffer.h
--- calf-0.0.19kx/src/calf/buffer.h 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/calf/buffer.h 2017-07-05 18:07:38.696711220 -0400
@@ -21,6 +21,7 @@
#ifndef __BUFFER_H
#define __BUFFER_H
+#include "minmax.h"
namespace dsp {
/// decrease by N if >= N (useful for circular buffers)
@@ -131,7 +132,7 @@
inline int size() { return buf_size; }
void resize(int new_size, bool fill_with_zeros = false) {
T *new_buf = new T[new_size];
- memcpy(new_buf, buf, std::min(buf_size, new_size));
+ memcpy(new_buf, buf, MIN(buf_size, new_size));
if (fill_with_zeros && buf_size < new_size)
dsp::zero(new_buf + buf_size, new_size - buf_size);
if (owns)
diff -Naur calf-0.0.19kx/src/calf/envelope.h calf-0.0.19kx.patched/src/calf/envelope.h
--- calf-0.0.19kx/src/calf/envelope.h 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/calf/envelope.h 2017-07-05 18:08:09.287709593 -0400
@@ -22,6 +22,7 @@
#define __CALF_ENVELOPE_H
#include "primitives.h"
+#include "minmax.h"
namespace dsp {
@@ -119,7 +120,7 @@
return;
// XXXKF what if envelope is already released? (doesn't happen in any current synth, but who knows?)
// Raise sustain value if it has been changed... I'm not sure if it's needed
- thiss = std::max(sustain, value);
+ thiss = MAX(sustain, value);
// Calculate release rate from sustain level
thisrelease = thiss / release_time;
// we're in attack or decay, and if decay is faster than release
diff -Naur calf-0.0.19kx/src/calf/fixed_point.h calf-0.0.19kx.patched/src/calf/fixed_point.h
--- calf-0.0.19kx/src/calf/fixed_point.h 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/calf/fixed_point.h 2017-07-05 18:08:01.555710004 -0400
@@ -20,6 +20,7 @@
*/
#ifndef __CALF_FIXED_POINT_H
#define __CALF_FIXED_POINT_H
+#include "minmax.h"
namespace dsp {
diff -Naur calf-0.0.19kx/src/calf/giface.h calf-0.0.19kx.patched/src/calf/giface.h
--- calf-0.0.19kx/src/calf/giface.h 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/calf/giface.h 2017-07-05 18:07:51.071710561 -0400
@@ -27,6 +27,7 @@
#include <exception>
#include <string>
#include <vector>
+#include "minmax.h"
namespace osctl {
struct osc_client;
@@ -542,7 +543,7 @@
uint32_t total_out_mask = 0;
while(offset < end)
{
- uint32_t newend = std::min(offset + MAX_SAMPLE_RUN, end);
+ uint32_t newend = MIN(offset + MAX_SAMPLE_RUN, end);
uint32_t out_mask = process(offset, newend - offset, -1, -1);
total_out_mask |= out_mask;
zero_by_mask(out_mask, offset, newend - offset);
diff -Naur calf-0.0.19kx/src/calf/minmax.h calf-0.0.19kx.patched/src/calf/minmax.h
--- calf-0.0.19kx/src/calf/minmax.h 1969-12-31 19:00:00.000000000 -0500
+++ calf-0.0.19kx.patched/src/calf/minmax.h 2017-07-05 18:15:43.487685437 -0400
@@ -0,0 +1,8 @@
+/* this stuff was copy/pasted from /usr/include/sys/param.h on Slack 14.2 */
+#ifndef MIN
+#define MIN(a,b) (((a)<(b))?(a):(b))
+#endif
+
+#ifndef MAX
+#define MAX(a,b) (((a)>(b))?(a):(b))
+#endif
diff -Naur calf-0.0.19kx/src/calf/osc.h calf-0.0.19kx.patched/src/calf/osc.h
--- calf-0.0.19kx/src/calf/osc.h 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/calf/osc.h 2017-07-05 18:07:29.783711694 -0400
@@ -24,6 +24,7 @@
#include "fft.h"
#include <map>
+#include "minmax.h"
namespace dsp
{
@@ -181,7 +182,7 @@
uint32_t cutoff = SIZE / 2, top = SIZE / 2;
float vmax = 0;
for (unsigned int i = 0; i < cutoff; i++)
- vmax = std::max(vmax, abs(bl.spectrum[i]));
+ vmax = MAX(vmax, abs(bl.spectrum[i]));
float vthres = vmax / 1024.0; // -60dB
float cumul = 0.f;
while(cutoff > (SIZE / limit)) {
@@ -321,7 +322,7 @@
table[i] -= dc;
float thismax = 0;
for (unsigned int i = 0; i < size; i++)
- thismax = std::max(thismax, fabsf(table[i]));
+ thismax = MAX(thismax, fabsf(table[i]));
if (thismax < 0.000001f)
return;
double divv = 1.0 / thismax;
diff -Naur calf-0.0.19kx/src/calf/osctl.h calf-0.0.19kx.patched/src/calf/osctl.h
--- calf-0.0.19kx/src/calf/osctl.h 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/calf/osctl.h 2017-07-05 18:08:30.753708451 -0400
@@ -29,6 +29,7 @@
#include <netinet/in.h>
#include <netdb.h>
#include <iostream>
+#include "minmax.h"
namespace osctl
{
@@ -378,7 +379,7 @@
for (uint32_t i = 0; i < len; i += 1024)
{
uint8_t tmp[1024];
- uint32_t part = std::min((uint32_t)1024, len - i);
+ uint32_t part = MIN((uint32_t)1024, len - i);
s.read(tmp, part);
buf.write(tmp, part);
}
@@ -398,7 +399,7 @@
for (uint32_t i = 0; i < len; i += 1024)
{
uint8_t tmp[1024];
- uint32_t part = std::min((uint32_t)1024, len - i);
+ uint32_t part = MIN((uint32_t)1024, len - i);
buf.read(tmp, part);
s.write(tmp, part);
}
diff -Naur calf-0.0.19kx/src/calf/vumeter.h calf-0.0.19kx.patched/src/calf/vumeter.h
--- calf-0.0.19kx/src/calf/vumeter.h 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/calf/vumeter.h 2017-07-05 18:08:17.582709151 -0400
@@ -22,6 +22,7 @@
#define __CALF_VUMETER_H
#include <math.h>
+#include "minmax.h"
namespace dsp {
@@ -94,7 +95,7 @@
float tmp = level;
for (unsigned int i = 0; i < len; i++) {
float sig = fabs(src[i]);
- tmp = std::max(tmp, sig);
+ tmp = MAX(tmp, sig);
if (sig >= 1.f)
clip = 1.f;
}
diff -Naur calf-0.0.19kx/src/ctl_curve.cpp calf-0.0.19kx.patched/src/ctl_curve.cpp
--- calf-0.0.19kx/src/ctl_curve.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/ctl_curve.cpp 2017-07-05 18:06:57.561713407 -0400
@@ -23,6 +23,7 @@
#include <stdint.h>
#include <stdlib.h>
#include <math.h>
+#include "minmax.h"
static gpointer parent_class = NULL;
@@ -135,7 +136,7 @@
{
float x = (*self->points)[i].first, y = (*self->points)[i].second;
self->log2phys(x, y);
- float thisdist = std::max(fabs(ex - x), fabs(ey - y));
+ float thisdist = MAX(fabs(ex - x), fabs(ey - y));
if (thisdist < dist)
{
dist = thisdist;
@@ -300,7 +301,7 @@
hide = false;
sink->clip(this, pt, x, y, hide);
- float ymin = std::min(y0, y1), ymax = std::max(y0, y1);
+ float ymin = MIN(y0, y1), ymax = MAX(y0, y1);
float yamp = ymax - ymin;
if (pt != 0 && pt != (int)(points->size() - 1))
{
diff -Naur calf-0.0.19kx/src/ctl_vumeter.cpp calf-0.0.19kx.patched/src/ctl_vumeter.cpp
--- calf-0.0.19kx/src/ctl_vumeter.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/ctl_vumeter.cpp 2017-07-05 18:01:33.751730628 -0400
@@ -28,6 +28,7 @@
#include <gdk/gdk.h>
#include <sys/time.h>
#include <string>
+#include "minmax.h"
///////////////////////////////////////// vu meter ///////////////////////////////////////////////
@@ -226,7 +227,7 @@
long time = tv.tv_sec * 1000 * 1000 + tv.tv_usec;
// limit to 1.f
- float value_orig = std::max(std::min(vu->value, 1.f), 0.f);
+ float value_orig = MAX(MIN(vu->value, 1.f), 0.f);
float value = 0.f;
// falloff?
@@ -269,14 +270,14 @@
// blinder left -> hold LED
int hold_x = round((vu->last_value) * (led_w + led_m)); // add last led_m removed earlier
hold_x -= hold_x % led_s + led_m;
- hold_x = std::max(0, hold_x);
+ hold_x = MAX(0, hold_x);
cairo_rectangle( c, led_x, led_y, hold_x, led_h);
// blinder hold LED -> value
int val_x = round((1 - value) * (led_w + led_m)); // add last led_m removed earlier
val_x -= val_x % led_s;
- int blind_x = std::min(hold_x + led_s, led_w);
- int blind_w = std::min(std::max(led_w - val_x - hold_x - led_s, 0), led_w);
+ int blind_x = MIN(hold_x + led_s, led_w);
+ int blind_w = MIN(MAX(led_w - val_x - hold_x - led_s, 0), led_w);
cairo_rectangle(c, led_x + blind_x, led_y, blind_w, led_h);
} else if( vu->mode == VU_STANDARD_CENTER ) {
if(value > vu->last_value) {
@@ -302,7 +303,7 @@
int val_x = round(value * (led_w + led_m)); // add last led_m removed earlier
val_x -= val_x % led_s;
int blind_w = led_w - hold_x - led_s - val_x;
- blind_w = std::min(std::max(blind_w, 0), led_w);
+ blind_w = MIN(MAX(blind_w, 0), led_w);
cairo_rectangle(c, led_x + val_x, led_y, blind_w, led_h);
cairo_rectangle( c, led_x + led_w - hold_x, led_y, hold_x, led_h);
}
diff -Naur calf-0.0.19kx/src/giface.cpp calf-0.0.19kx.patched/src/giface.cpp
--- calf-0.0.19kx/src/giface.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/giface.cpp 2017-07-05 18:02:41.488727026 -0400
@@ -23,6 +23,7 @@
#include <calf/giface.h>
#include <calf/osctlnet.h>
#include <calf/utils.h>
+#include "minmax.h"
using namespace std;
using namespace calf_utils;
@@ -49,7 +50,7 @@
if (value01 < 0.00001)
value = min;
else {
- float rmin = std::max(1.0f / 1024.0f, min);
+ float rmin = MAX(1.0f / 1024.0f, min);
value = rmin * pow(double(max / rmin), value01);
}
break;
@@ -99,7 +100,7 @@
case PF_SCALE_GAIN:
if (value < 1.0 / 1024.0) // new bottom limit - 60 dB
return 0;
- double rmin = std::max(1.0f / 1024.0f, min);
+ double rmin = MAX(1.0f / 1024.0f, min);
value /= rmin;
return log((double)value) / log(max / rmin);
}
@@ -129,10 +130,10 @@
sprintf(buf, "%0.0f dB", 6.0 * log(min) / log(2));
len = strlen(buf);
sprintf(buf, "%0.0f dB", 6.0 * log(max) / log(2));
- len = std::max(len, strlen(buf)) + 2;
+ len = MAX(len, strlen(buf)) + 2;
return (int)len;
}
- return std::max(to_string(min).length(), std::max(to_string(max).length(), to_string(min + (max-min) * 0.987654).length()));
+ return MAX(to_string(min).length(), MAX(to_string(max).length(), to_string(min + (max-min) * 0.987654).length()));
}
std::string parameter_properties::to_string(float value) const
diff -Naur calf-0.0.19kx/src/makerdf.cpp calf-0.0.19kx.patched/src/makerdf.cpp
--- calf-0.0.19kx/src/makerdf.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/makerdf.cpp 2017-07-05 18:11:24.534699209 -0400
@@ -21,6 +21,7 @@
#include <calf/giface.h>
#include <calf/preset.h>
#include <calf/utils.h>
+#include "minmax.h"
#if USE_LV2
#include <calf/lv2.h>
#include <calf/lv2_event.h>
@@ -538,7 +539,7 @@
" lv2:port \n"
;
- unsigned int count = min(pr.param_names.size(), pr.values.size());
+ unsigned int count = MIN(pr.param_names.size(), pr.values.size());
for (unsigned int j = 0; j < count; j++)
{
presets_ttl += " [ lv2:symbol \"" + pr.param_names[j] + "\" ; lv2p:value " + ff2s(pr.values[j]) + " ] ";
diff -Naur calf-0.0.19kx/src/minmax.h calf-0.0.19kx.patched/src/minmax.h
--- calf-0.0.19kx/src/minmax.h 1969-12-31 19:00:00.000000000 -0500
+++ calf-0.0.19kx.patched/src/minmax.h 2017-07-05 18:17:34.976679508 -0400
@@ -0,0 +1,8 @@
+/* this stuff was copy/pasted from /usr/include/sys/param.h on Slack 14.2 */
+#ifndef MIN
+#define MIN(a,b) (((a)<(b))?(a):(b))
+#endif
+
+#ifndef MAX
+#define MAX(a,b) (((a)>(b))?(a):(b))
+#endif
diff -Naur calf-0.0.19kx/src/modules.cpp calf-0.0.19kx.patched/src/modules.cpp
--- calf-0.0.19kx/src/modules.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/modules.cpp 2017-07-05 18:06:28.366714960 -0400
@@ -26,6 +26,7 @@
#include <calf/modules.h>
#include <calf/modules_dev.h>
#include <sys/time.h>
+#include "minmax.h"
using namespace dsp;
using namespace calf_plugins;
@@ -68,7 +69,7 @@
uint32_t reverb_audio_module::process(uint32_t offset, uint32_t numsamples, uint32_t inputs_mask, uint32_t outputs_mask)
{
numsamples += offset;
- clip -= std::min(clip, numsamples);
+ clip -= MIN(clip, numsamples);
for (uint32_t i = offset; i < numsamples; i++) {
float dry = dryamount.get();
float wet = amount.get();
@@ -81,8 +82,8 @@
reverb.process(rl, rr);
outs[0][i] = dry*s.left + wet*rl;
outs[1][i] = dry*s.right + wet*rr;
- meter_wet = std::max(fabs(wet*rl), fabs(wet*rr));
- meter_out = std::max(fabs(outs[0][i]), fabs(outs[1][i]));
+ meter_wet = MAX(fabs(wet*rl), fabs(wet*rr));
+ meter_out = MAX(fabs(outs[0][i]), fabs(outs[1][i]));
if(outs[0][i] > 1.f or outs[1][i] > 1.f) {
clip = srate >> 3;
}
@@ -573,10 +574,10 @@
meter_outR = 0.f;
} else {
// let meters fall a bit
- clip_inL -= std::min(clip_inL, numsamples);
- clip_inR -= std::min(clip_inR, numsamples);
- clip_outL -= std::min(clip_outL, numsamples);
- clip_outR -= std::min(clip_outR, numsamples);
+ clip_inL -= MIN(clip_inL, numsamples);
+ clip_inR -= MIN(clip_inR, numsamples);
+ clip_outL -= MIN(clip_outL, numsamples);
+ clip_outR -= MIN(clip_outR, numsamples);
meter_inL = 0.f;
meter_inR = 0.f;
meter_outL = 0.f;
@@ -590,8 +591,8 @@
R *= *params[param_level_in];
// balance in
- L *= (1.f - std::max(0.f, *params[param_balance_in]));
- R *= (1.f + std::min(0.f, *params[param_balance_in]));
+ L *= (1.f - MAX(0.f, *params[param_balance_in]));
+ R *= (1.f + MIN(0.f, *params[param_balance_in]));
// copy / flip / mono ...
switch((int)*params[param_mode])
@@ -688,8 +689,8 @@
pos = (pos + 2) % buffer_size;
// balance out
- L *= (1.f - std::max(0.f, *params[param_balance_out]));
- R *= (1.f + std::min(0.f, *params[param_balance_out]));
+ L *= (1.f - MAX(0.f, *params[param_balance_out]));
+ R *= (1.f + MIN(0.f, *params[param_balance_out]));
// level
L *= *params[param_level_out];
@@ -782,9 +783,9 @@
meter_outR = 0.f;
} else {
// let meters fall a bit
- clip_in -= std::min(clip_in, numsamples);
- clip_outL -= std::min(clip_outL, numsamples);
- clip_outR -= std::min(clip_outR, numsamples);
+ clip_in -= MIN(clip_in, numsamples);
+ clip_outL -= MIN(clip_outL, numsamples);
+ clip_outR -= MIN(clip_outR, numsamples);
meter_in = 0.f;
meter_outL = 0.f;
meter_outR = 0.f;
@@ -847,8 +848,8 @@
pos = (pos + 2) % buffer_size;
// balance out
- L *= (1.f - std::max(0.f, *params[param_balance_out]));
- R *= (1.f + std::min(0.f, *params[param_balance_out]));
+ L *= (1.f - MAX(0.f, *params[param_balance_out]));
+ R *= (1.f + MIN(0.f, *params[param_balance_out]));
// level
L *= *params[param_level_out];
@@ -1027,8 +1028,8 @@
uint32_t analyzer_audio_module::process(uint32_t offset, uint32_t numsamples, uint32_t inputs_mask, uint32_t outputs_mask) {
for(uint32_t i = offset; i < offset + numsamples; i++) {
// let meters fall a bit
- clip_L -= std::min(clip_L, numsamples);
- clip_R -= std::min(clip_R, numsamples);
+ clip_L -= MIN(clip_L, numsamples);
+ clip_R -= MIN(clip_R, numsamples);
meter_L = 0.f;
meter_R = 0.f;
@@ -1043,7 +1044,7 @@
phase_buffer[ppos] = L * *params[param_gonio_level];
phase_buffer[ppos + 1] = R * *params[param_gonio_level];
- plength = std::min(phase_buffer_size, plength + 2);
+ plength = MIN(phase_buffer_size, plength + 2);
ppos += 2;
ppos %= (phase_buffer_size - 2);
@@ -1075,7 +1076,7 @@
srate = sr;
phase_buffer_size = srate / 30 * 2;
phase_buffer_size -= phase_buffer_size % 2;
- phase_buffer_size = std::min(phase_buffer_size, (int)max_phase_buffer_size);
+ phase_buffer_size = MIN(phase_buffer_size, (int)max_phase_buffer_size);
}
bool analyzer_audio_module::get_phase_graph(float ** _buffer, int *_length, int * _mode, bool * _use_fade, float * _fade, int * _accuracy, bool * _display) const {
@@ -1348,12 +1349,12 @@
if(*params[param_analyzer_scale] or *params[param_analyzer_view] == 2) {
// we have linear view enabled or we want to see tit... erm curves
if((i % lintrans == 0 and points - i > lintrans) or i == points - 1) {
- _iter = std::max(1, (int)floor(freq * \
+ _iter = MAX(1, (int)floor(freq * \
(float)_accuracy / (float)srate));
}
} else {
// we have logarithmic view enabled
- _iter = std::max(1, (int)floor(freq * (float)_accuracy / (float)srate));
+ _iter = MAX(1, (int)floor(freq * (float)_accuracy / (float)srate));
}
if(_iter > iter) {
// we are flipping one step further in drawing
@@ -1399,7 +1400,7 @@
break;
case 3:
// Analyzer Denoised Peaks - filter out unwanted noise
- for(int k = 0; k < std::max(10 , std::min(400 ,\
+ for(int k = 0; k < MAX(10 , MIN(400 ,\
(int)(2.f*(float)((_iter - iter))))); k++) {
//collect amplitudes in the environment of _iter to
//be able to erase them from signal and leave just
@@ -1426,12 +1427,12 @@
lastoutL = fft_outL[_iter];
//pumping up actual signal an erase surrounding
// sounds
- fft_outL[_iter] = 0.25f * std::max(n * 0.6f * \
+ fft_outL[_iter] = 0.25f * MAX(n * 0.6f * \
fabs(fft_outL[_iter]) - var1L , 1e-20);
if(_param_mode == 3 or _param_mode == 4) {
// do the same with R channel if needed
lastoutR = fft_outR[_iter];
- fft_outR[_iter] = 0.25f * std::max(n * \
+ fft_outR[_iter] = 0.25f * MAX(n * \
0.6f * fabs(fft_outR[_iter]) - var1R , 1e-20);
}
break;
diff -Naur calf-0.0.19kx/src/modules_comp.cpp calf-0.0.19kx.patched/src/modules_comp.cpp
--- calf-0.0.19kx/src/modules_comp.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/modules_comp.cpp 2017-07-05 18:11:10.031699980 -0400
@@ -22,6 +22,7 @@
#include <memory.h>
#include <calf/giface.h>
#include <calf/modules_comp.h>
+#include "minmax.h"
using namespace dsp;
using namespace calf_plugins;
@@ -201,10 +202,10 @@
// process all strips
// let meters fall a bit
- clip_inL -= std::min(clip_inL, numsamples);
- clip_inR -= std::min(clip_inR, numsamples);
- clip_outL -= std::min(clip_outL, numsamples);
- clip_outR -= std::min(clip_outR, numsamples);
+ clip_inL -= MIN(clip_inL, numsamples);
+ clip_inR -= MIN(clip_inR, numsamples);
+ clip_outL -= MIN(clip_outL, numsamples);
+ clip_outR -= MIN(clip_outR, numsamples);
meter_inL = 0.f;
meter_inR = 0.f;
meter_outL = 0.f;
@@ -1025,8 +1026,8 @@
} else {
// process
- detected_led -= std::min(detected_led, numsamples);
- clip_led -= std::min(clip_led, numsamples);
+ detected_led -= MIN(detected_led, numsamples);
+ clip_led -= MIN(clip_led, numsamples);
compressor.update_curve();
while(offset < numsamples) {
@@ -1081,18 +1082,18 @@
outs[0][offset] = outL;
outs[1][offset] = outR;
- if(std::max(fabs(leftSC), fabs(rightSC)) > *params[param_threshold]) {
+ if(MAX(fabs(leftSC), fabs(rightSC)) > *params[param_threshold]) {
detected_led = srate >> 3;
}
- if(std::max(fabs(leftAC), fabs(rightAC)) > 1.f) {
+ if(MAX(fabs(leftAC), fabs(rightAC)) > 1.f) {
clip_led = srate >> 3;
}
if(clip_led > 0) {
clip_out = 1.f;
} else {
- clip_out = std::max(fabs(outL), fabs(outR));
+ clip_out = MAX(fabs(outL), fabs(outR));
}
- detected = std::max(fabs(leftMC), fabs(rightMC));
+ detected = MAX(fabs(leftMC), fabs(rightMC));
// next sample
++offset;
@@ -1896,10 +1897,10 @@
// process all strips
// let meters fall a bit
- clip_inL -= std::min(clip_inL, numsamples);
- clip_inR -= std::min(clip_inR, numsamples);
- clip_outL -= std::min(clip_outL, numsamples);
- clip_outR -= std::min(clip_outR, numsamples);
+ clip_inL -= MIN(clip_inL, numsamples);
+ clip_inR -= MIN(clip_inR, numsamples);
+ clip_outL -= MIN(clip_outL, numsamples);
+ clip_outR -= MIN(clip_outR, numsamples);
meter_inL = 0.f;
meter_inR = 0.f;
meter_outL = 0.f;
@@ -2161,10 +2162,10 @@
// greatest sounding compressor I've heard!
bool rms = (detection == 0);
bool average = (stereo_link == 0);
- float attack_coeff = std::min(1.f, 1.f / (attack * srate / 4000.f));
- float release_coeff = std::min(1.f, 1.f / (release * srate / 4000.f));
+ float attack_coeff = MIN(1.f, 1.f / (attack * srate / 4000.f));
+ float release_coeff = MIN(1.f, 1.f / (release * srate / 4000.f));
- float absample = average ? (fabs(*det_left) + fabs(*det_right)) * 0.5f : std::max(fabs(*det_left), fabs(*det_right));
+ float absample = average ? (fabs(*det_left) + fabs(*det_right)) * 0.5f : MAX(fabs(*det_left), fabs(*det_right));
if(rms) absample *= absample;
dsp::sanitize(linSlope);
@@ -2177,7 +2178,7 @@
left *= gain * makeup;
right *= gain * makeup;
- meter_out = std::max(fabs(left), fabs(right));;
+ meter_out = MAX(fabs(left), fabs(right));;
meter_comp = gain;
detected = rms ? sqrt(linSlope) : linSlope;
}
@@ -2390,8 +2391,8 @@
float linThreshold = threshold;
if (rms)
linThreshold = linThreshold * linThreshold;
- attack_coeff = std::min(1.f, 1.f / (attack * srate / 4000.f));
- release_coeff = std::min(1.f, 1.f / (release * srate / 4000.f));
+ attack_coeff = MIN(1.f, 1.f / (attack * srate / 4000.f));
+ release_coeff = MIN(1.f, 1.f / (release * srate / 4000.f));
float linKneeSqrt = sqrt(knee);
linKneeStart = linThreshold / linKneeSqrt;
adjKneeStart = linKneeStart*linKneeStart;
@@ -2414,7 +2415,7 @@
// this routine is mainly copied from Damien's expander module based on Thor's compressor
bool rms = (detection == 0);
bool average = (stereo_link == 0);
- float absample = average ? (fabs(*det_left) + fabs(*det_right)) * 0.5f : std::max(fabs(*det_left), fabs(*det_right));
+ float absample = average ? (fabs(*det_left) + fabs(*det_right)) * 0.5f : MAX(fabs(*det_left), fabs(*det_right));
if(rms) absample *= absample;
dsp::sanitize(linSlope);
@@ -2426,7 +2427,7 @@
}
left *= gain * makeup;
right *= gain * makeup;
- meter_out = std::max(fabs(left), fabs(right));
+ meter_out = MAX(fabs(left), fabs(right));
meter_gate = gain;
detected = linSlope;
}
@@ -2453,7 +2454,7 @@
if(knee > 1.f && slope > kneeStart ) {
gain = dsp::hermite_interpolation(slope, kneeStart, kneeStop, ((kneeStart - thres) * tratio + thres), kneeStop, delta,1.f);
}
- return std::max(range, expf(gain-slope));
+ return MAX(range, expf(gain-slope));
}
return 1.f;
}
diff -Naur calf-0.0.19kx/src/modules_dist.cpp calf-0.0.19kx.patched/src/modules_dist.cpp
--- calf-0.0.19kx/src/modules_dist.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/modules_dist.cpp 2017-07-05 18:08:59.690706912 -0400
@@ -22,6 +22,7 @@
#include <memory.h>
#include <calf/giface.h>
#include <calf/modules_dist.h>
+#include "minmax.h"
using namespace dsp;
using namespace calf_plugins;
@@ -223,7 +224,7 @@
} // cycle trough samples
meters.process(params, ins, outs, orig_offset, orig_numsamples);
- tube_avg = (sqrt(std::max(out_avg[0], out_avg[1])) / numsamples) - (sqrt(std::max(in_avg[0], in_avg[1])) / numsamples);
+ tube_avg = (sqrt(MAX(out_avg[0], out_avg[1])) / numsamples) - (sqrt(MAX(in_avg[0], in_avg[1])) / numsamples);
meter_drive = (5.0f * fabs(tube_avg) * (float(*params[param_blend]) + 30.0f));
// printf("out:%.6f in: %.6f avg: %.6f drv: %.3f\n", sqrt(std::max(out_avg[0], out_avg[1])) / numsamples, sqrt(std::max(in_avg[0], in_avg[1])) / numsamples, tube_avg, meter_drive);
// clean up
@@ -397,7 +398,7 @@
maxDrive = dist[0].get_distortion_level() * *params[param_amount];
if(in_count > 1 && out_count > 1) {
- maxDrive = std::max(maxDrive, dist[1].get_distortion_level() * *params[param_amount]);
+ maxDrive = MAX(maxDrive, dist[1].get_distortion_level() * *params[param_amount]);
// full stereo
out[0] = (proc[0] * *params[param_amount] + in2out * in[0]) * *params[param_level_out];
out[1] = (proc[1] * *params[param_amount] + in2out * in[1]) * *params[param_level_out];
@@ -593,7 +594,7 @@
else
out[1] = (proc[1] * *params[param_amount] + in[1]) * *params[param_level_out];
outs[1][offset] = out[1];
- maxDrive = std::max(dist[0].get_distortion_level() * *params[param_amount],
+ maxDrive = MAX(dist[0].get_distortion_level() * *params[param_amount],
dist[1].get_distortion_level() * *params[param_amount]);
} else if(out_count > 1) {
// mono -> pseudo stereo
diff -Naur calf-0.0.19kx/src/modules_limit.cpp calf-0.0.19kx.patched/src/modules_limit.cpp
--- calf-0.0.19kx/src/modules_limit.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/modules_limit.cpp 2017-07-05 18:12:57.826694247 -0400
@@ -22,6 +22,7 @@
#include <memory.h>
#include <calf/giface.h>
#include <calf/modules_limit.h>
+#include "minmax.h"
using namespace dsp;
using namespace calf_plugins;
@@ -110,15 +111,15 @@
asc_led = 0.f;
} else {
// let meters fall a bit
- clip_inL -= std::min(clip_inL, numsamples);
- clip_inR -= std::min(clip_inR, numsamples);
- clip_outL -= std::min(clip_outL, numsamples);
- clip_outR -= std::min(clip_outR, numsamples);
+ clip_inL -= MIN(clip_inL, numsamples);
+ clip_inR -= MIN(clip_inR, numsamples);
+ clip_outL -= MIN(clip_outL, numsamples);
+ clip_outR -= MIN(clip_outR, numsamples);
meter_inL = 0.f;
meter_inR = 0.f;
meter_outL = 0.f;
meter_outR = 0.f;
- asc_led -= std::min(asc_led, numsamples);
+ asc_led -= MIN(asc_led, numsamples);
while(offset < numsamples) {
// cycle through samples
@@ -139,10 +140,10 @@
// should never be used. but hackers are paranoid by default.
// so we make shure NOTHING is above limit
- outL = std::max(outL, -*params[param_limit]);
- outL = std::min(outL, *params[param_limit]);
- outR = std::max(outR, -*params[param_limit]);
- outR = std::min(outR, *params[param_limit]);
+ outL = MAX(outL, -*params[param_limit]);
+ outL = MIN(outL, *params[param_limit]);
+ outR = MAX(outR, -*params[param_limit]);
+ outR = MIN(outR, *params[param_limit]);
// autolevel
outL /= *params[param_limit];
@@ -363,22 +364,22 @@
float rel;
rel = *params[param_release] * pow(0.25, *params[param_release0] * -1);
- rel = (*params[param_minrel] > 0.5) ? std::max(2500 * (1.f / 30), rel) : rel;
+ rel = (*params[param_minrel] > 0.5) ? MAX(2500 * (1.f / 30), rel) : rel;
weight[0] = pow(0.25, *params[param_weight0] * -1);
strip[0].set_params(*params[param_limit], *params[param_attack], rel, weight[0], *params[param_asc], pow(0.5, (*params[param_asc_coeff] - 0.5) * 2 * -1));
*params[param_effrelease0] = rel;
rel = *params[param_release] * pow(0.25, *params[param_release1] * -1);
- rel = (*params[param_minrel] > 0.5) ? std::max(2500 * (1.f / *params[param_freq0]), rel) : rel;
+ rel = (*params[param_minrel] > 0.5) ? MAX(2500 * (1.f / *params[param_freq0]), rel) : rel;
weight[1] = pow(0.25, *params[param_weight1] * -1);
strip[1].set_params(*params[param_limit], *params[param_attack], rel, weight[1], *params[param_asc], pow(0.5, (*params[param_asc_coeff] - 0.5) * 2 * -1), true);
*params[param_effrelease1] = rel;
rel = *params[param_release] * pow(0.25, *params[param_release2] * -1);
- rel = (*params[param_minrel] > 0.5) ? std::max(2500 * (1.f / *params[param_freq1]), rel) : rel;
+ rel = (*params[param_minrel] > 0.5) ? MAX(2500 * (1.f / *params[param_freq1]), rel) : rel;
weight[2] = pow(0.25, *params[param_weight2] * -1);
strip[2].set_params(*params[param_limit], *params[param_attack], rel, weight[2], *params[param_asc], pow(0.5, (*params[param_asc_coeff] - 0.5) * 2 * -1));
*params[param_effrelease2] = rel;
rel = *params[param_release] * pow(0.25, *params[param_release3] * -1);
- rel = (*params[param_minrel] > 0.5) ? std::max(2500 * (1.f / *params[param_freq2]), rel) : rel;
+ rel = (*params[param_minrel] > 0.5) ? MAX(2500 * (1.f / *params[param_freq2]), rel) : rel;
weight[3] = pow(0.25, *params[param_weight3] * -1);
strip[3].set_params(*params[param_limit], *params[param_attack], rel, weight[3], *params[param_asc], pow(0.5, (*params[param_asc_coeff] - 0.5) * 2 * -1));
*params[param_effrelease3] = rel;
@@ -459,11 +460,11 @@
// process all strips
// let meters fall a bit
- clip_inL -= std::min(clip_inL, numsamples);
- clip_inR -= std::min(clip_inR, numsamples);
- clip_outL -= std::min(clip_outL, numsamples);
- clip_outR -= std::min(clip_outR, numsamples);
- asc_led -= std::min(asc_led, numsamples);
+ clip_inL -= MIN(clip_inL, numsamples);
+ clip_inR -= MIN(clip_inR, numsamples);
+ clip_outL -= MIN(clip_outL, numsamples);
+ clip_outR -= MIN(clip_outR, numsamples);
+ asc_led -= MIN(asc_led, numsamples);
meter_inL = 0.f;
meter_inR = 0.f;
meter_outL = 0.f;
@@ -544,7 +545,7 @@
} // process single strip with filter
// write multiband coefficient to buffer
- buffer[pos] = std::min(*params[param_limit] / std::max(fabs(sum_left), fabs(sum_right)), 1.0);
+ buffer[pos] = MIN(*params[param_limit] / MAX(fabs(sum_left), fabs(sum_right)), 1.0);
for (int i = 0; i < strips; i++) {
// process gain reduction
@@ -562,10 +563,10 @@
// should never be used. but hackers are paranoid by default.
// so we make shure NOTHING is above limit
- outL = std::max(outL, -*params[param_limit]);
- outL = std::min(outL, *params[param_limit]);
- outR = std::max(outR, -*params[param_limit]);
- outR = std::min(outR, *params[param_limit]);
+ outL = MAX(outL, -*params[param_limit]);
+ outL = MIN(outL, *params[param_limit]);
+ outR = MAX(outR, -*params[param_limit]);
+ outR = MIN(outR, *params[param_limit]);
batt = broadband.get_attenuation();
diff -Naur calf-0.0.19kx/src/modules_mod.cpp calf-0.0.19kx.patched/src/modules_mod.cpp
--- calf-0.0.19kx/src/modules_mod.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/modules_mod.cpp 2017-07-05 17:59:43.420736496 -0400
@@ -22,6 +22,7 @@
#include <memory.h>
#include <calf/giface.h>
#include <calf/modules_mod.h>
+#include "minmax.h"
using namespace dsp;
using namespace calf_plugins;
@@ -308,12 +309,12 @@
inline bool rotary_speaker_audio_module::incr_towards(float &aspeed, float raspeed, float delta_decc, float delta_acc)
{
if (aspeed < raspeed) {
- aspeed = std::min(raspeed, aspeed + delta_acc);
+ aspeed = MIN(raspeed, aspeed + delta_acc);
return true;
}
else if (aspeed > raspeed)
{
- aspeed = std::max(raspeed, aspeed - delta_decc);
+ aspeed = MAX(raspeed, aspeed - delta_decc);
return true;
}
return false;
@@ -520,7 +521,7 @@
left.lfo.set_voices(voices); right.lfo.set_voices(voices);
left.lfo.set_overlap(overlap);right.lfo.set_overlap(overlap);
float vphase = *params[par_vphase] * (1.f / 360.f);
- left.lfo.vphase = right.lfo.vphase = vphase * (4096 / std::max(voices - 1, 1));
+ left.lfo.vphase = right.lfo.vphase = vphase * (4096 / MAX(voices - 1, 1));
float r_phase = *params[par_stereo] * (1.f / 360.f);
if (fabs(r_phase - last_r_phase) > 0.0001f) {
right.lfo.phase = left.lfo.phase;
@@ -619,10 +620,10 @@
} else {
- clip_inL -= std::min(clip_inL, numsamples);
- clip_inR -= std::min(clip_inR, numsamples);
- clip_outL -= std::min(clip_outL, numsamples);
- clip_outR -= std::min(clip_outR, numsamples);
+ clip_inL -= MIN(clip_inL, numsamples);
+ clip_inR -= MIN(clip_inR, numsamples);
+ clip_outL -= MIN(clip_outL, numsamples);
+ clip_outR -= MIN(clip_outR, numsamples);
meter_inL = 0.f;
meter_inR = 0.f;
meter_outL = 0.f;
diff -Naur calf-0.0.19kx/src/monosynth.cpp calf-0.0.19kx.patched/src/monosynth.cpp
--- calf-0.0.19kx/src/monosynth.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/monosynth.cpp 2017-07-05 18:03:42.319723791 -0400
@@ -20,6 +20,7 @@
*/
#include <calf/giface.h>
#include <calf/modules_synths.h>
+#include "minmax.h"
using namespace dsp;
using namespace calf_plugins;
@@ -115,11 +116,11 @@
waves[wave_varistep].make(bl, data);
for (int i = 0; i < S; i++) {
- data[i] = (min(1.f, (float)(i / 64.f))) * (1.0 - i * 1.0 / S) * (-1 + fmod (i * i * 8/ (S * S * 1.0), 2.0));
+ data[i] = (MIN(1.f, (float)(i / 64.f))) * (1.0 - i * 1.0 / S) * (-1 + fmod (i * i * 8/ (S * S * 1.0), 2.0));
}
waves[wave_skewsaw].make(bl, data);
for (int i = 0; i < S; i++) {
- data[i] = (min(1.f, (float)(i / 64.f))) * (1.0 - i * 1.0 / S) * (fmod (i * i * 8/ (S * S * 1.0), 2.0) < 1.0 ? -1.0 : +1.0);
+ data[i] = (MIN(1.f, (float)(i / 64.f))) * (1.0 - i * 1.0 / S) * (fmod (i * i * 8/ (S * S * 1.0), 2.0) < 1.0 ? -1.0 : +1.0);
}
waves[wave_skewsqr].make(bl, data);
@@ -441,7 +442,7 @@
if (*params[param] <= 0)
return lfo.get();
float pt = lfo_clock / *params[param];
- return lfo.get() * std::min(1.0f, pt);
+ return lfo.get() * MIN(1.0f, pt);
}
void monosynth_audio_module::calculate_step()
@@ -518,32 +519,32 @@
case flt_lp12:
filter.set_lp_rbj(cutoff, resonance, srate);
filter2.set_null();
- newfgain = min(0.7f, 0.7f / resonance) * ampctl;
+ newfgain = MIN(0.7f, 0.7f / resonance) * ampctl;
break;
case flt_hp12:
filter.set_hp_rbj(cutoff, resonance, srate);
filter2.set_null();
- newfgain = min(0.7f, 0.7f / resonance) * ampctl;
+ newfgain = MIN(0.7f, 0.7f / resonance) * ampctl;
break;
case flt_lp24:
filter.set_lp_rbj(cutoff, resonance, srate);
filter2.set_lp_rbj(cutoff2, resonance, srate);
- newfgain = min(0.5f, 0.5f / resonance) * ampctl;
+ newfgain = MIN(0.5f, 0.5f / resonance) * ampctl;
break;
case flt_lpbr:
filter.set_lp_rbj(cutoff, resonance, srate);
filter2.set_br_rbj(cutoff2, 1.0 / resonance, srate);
- newfgain = min(0.5f, 0.5f / resonance) * ampctl;
+ newfgain = MIN(0.5f, 0.5f / resonance) * ampctl;
break;
case flt_hpbr:
filter.set_hp_rbj(cutoff, resonance, srate);
filter2.set_br_rbj(cutoff2, 1.0 / resonance, srate);
- newfgain = min(0.5f, 0.5f / resonance) * ampctl;
+ newfgain = MIN(0.5f, 0.5f / resonance) * ampctl;
break;
case flt_2lp12:
filter.set_lp_rbj(cutoff, resonance, srate);
filter2.set_lp_rbj(cutoff2, resonance, srate);
- newfgain = min(0.7f, 0.7f / resonance) * ampctl;
+ newfgain = MIN(0.7f, 0.7f / resonance) * ampctl;
break;
case flt_bp6:
filter.set_bp_rbj(cutoff, resonance, srate);
@@ -728,8 +729,8 @@
void monosynth_audio_module::params_changed()
{
float sf = 0.001f;
- envelope1.set(*params[par_env1attack] * sf, *params[par_env1decay] * sf, std::min(0.999f, *params[par_env1sustain]), *params[par_env1release] * sf, srate / step_size, *params[par_env1fade] * sf);
- envelope2.set(*params[par_env2attack] * sf, *params[par_env2decay] * sf, std::min(0.999f, *params[par_env2sustain]), *params[par_env2release] * sf, srate / step_size, *params[par_env2fade] * sf);
+ envelope1.set(*params[par_env1attack] * sf, *params[par_env1decay] * sf, MIN(0.999f, *params[par_env1sustain]), *params[par_env1release] * sf, srate / step_size, *params[par_env1fade] * sf);
+ envelope2.set(*params[par_env2attack] * sf, *params[par_env2decay] * sf, MIN(0.999f, *params[par_env2sustain]), *params[par_env2release] * sf, srate / step_size, *params[par_env2fade] * sf);
filter_type = dsp::fastf2i_drm(*params[par_filtertype]);
separation = pow(2.0, *params[par_cutoffsep] / 1200.0);
wave1 = dsp::clip(dsp::fastf2i_drm(*params[par_wave1]), 0, (int)wave_count - 1);
@@ -756,7 +757,7 @@
calculate_step();
if(op < op_end) {
uint32_t ip = output_pos;
- uint32_t len = std::min(step_size - output_pos, op_end - op);
+ uint32_t len = MIN(step_size - output_pos, op_end - op);
if (running)
{
had_data = 3;
diff -Naur calf-0.0.19kx/src/organ.cpp calf-0.0.19kx.patched/src/organ.cpp
--- calf-0.0.19kx/src/organ.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/organ.cpp 2017-07-05 18:07:06.994712906 -0400
@@ -23,6 +23,7 @@
#include <calf/giface.h>
#include <calf/organ.h>
#include <iostream>
+#include "minmax.h"
using namespace std;
using namespace dsp;
@@ -1079,7 +1080,7 @@
if (dsp::fastf2i_drm(parameters->lfo_mode) == organ_voice_base::lfomode_global)
{
for (int i = 0; i < nsamples; i += 64)
- global_vibrato.process(parameters, buf + i, std::min(64, nsamples - i), sample_rate);
+ global_vibrato.process(parameters, buf + i, MIN(64, nsamples - i), sample_rate);
}
if (percussion.get_active())
percussion.render_percussion_to(buf, nsamples);
diff -Naur calf-0.0.19kx/src/plugin_gui_window.cpp calf-0.0.19kx.patched/src/plugin_gui_window.cpp
--- calf-0.0.19kx/src/plugin_gui_window.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/plugin_gui_window.cpp 2017-07-05 18:03:59.454722879 -0400
@@ -25,6 +25,7 @@
#include <gdk/gdk.h>
#include <iostream>
+#include "minmax.h"
using namespace calf_plugins;
using namespace std;
@@ -367,7 +368,7 @@
gui->show_rack_ears(environment->get_config()->rack_ears);
gtk_widget_size_request(GTK_WIDGET(container), &req);
- int wx = max(req.width + 10, req2.width);
+ int wx = MAX(req.width + 10, req2.width);
int wy = req.height + req2.height + 10;
// printf("size request %dx%d\n", req.width, req.height);
// printf("resize to %dx%d\n", max(req.width + 10, req2.width), req.height + req2.height + 10);
diff -Naur calf-0.0.19kx/src/preset.cpp calf-0.0.19kx.patched/src/preset.cpp
--- calf-0.0.19kx/src/preset.cpp 2014-03-08 16:26:41.000000000 -0500
+++ calf-0.0.19kx.patched/src/preset.cpp 2017-07-05 18:09:33.377705120 -0400
@@ -26,6 +26,7 @@
#include <errno.h>
#include <unistd.h>
#include <sys/stat.h>
+#include "minmax.h"
using namespace std;
using namespace calf_plugins;
@@ -86,7 +87,7 @@
for (int i = 0; i < count; i++)
names[metadata->get_param_props(i)->short_name] = i;
// no support for unnamed parameters... tough luck :)
- for (unsigned int i = 0; i < min(param_names.size(), values.size()); i++)
+ for (unsigned int i = 0; i < MIN(param_names.size(), values.size()); i++)
{
map<string, int>::iterator pos = names.find(param_names[i]);
if (pos == names.end()) {
Reference in a new issue View git blame Copy permalink